Static and dynamic compression therapy system

ABSTRACT

Compression systems and methods may include a garment configured to be donned on, for example, a head and a neck of a body. For example, the garment may include a static garment portion configurable to apply a static pressure to a portion of the head and a dynamic garment portion including one or more pressure applying regions controllable to apply pressure to the head and neck. Further, a controller may be configured to control pressure applied by the one or more pressure applying regions.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of U.S. Provisional Application No.62/237,200, filed Oct. 5, 2015, and entitled “Static and DynamicCompression Therapy System”; U.S. Provisional Application No.62/237,192, filed Oct. 5, 2015, and entitled “Head and Neck CompressionTherapy System”; and U.S. Provisional Application No. 62/237,209, filedOct. 5, 2015, and entitled “Head and Neck Compression Garment,” all ofwhich are incorporated herein in their entirety.

FIELD OF THE DISCLOSURE

The present disclosure relates generally to the use of compressiongarments and compression garment systems and to methods for applyingpressure to a portion of the body (e.g., a portion of a head and a neckof a body).

BACKGROUND

Various types of compression garments are available, for example, suchas for treatment of lymphedema, edema, wound healing, etc. For example,garments may include inflatable cells (or other actuatable elements) toprovide therapy to patients and may be positioned about any body portionof a person or animal. Specifically, the garments may be positionedabout body portions that exhibit swelling due to a build-up of lymph andthat would benefit from compression therapy provided by the garments.For example, such cells may be inflatable to one or more differentpressures in a variety of sequences to provide the therapy to thepatient by moving lymph from one region to another. In other words, suchcompression garments may be placed around at least a portion of anindividual's body for use in applying pressure to the body at anaffected extremity. These compression garments may be donned (e.g., puton) and doffed (e.g., taken off) by patients themselves or with helpfrom others.

SUMMARY

An exemplary compression garment system described herein may include agarment configured to be donned on a head and a neck of a body and acontroller. The garment may include a static garment portionconfigurable to apply a static pressure to a portion of the head and adynamic garment portion including one or more pressure applying regionscontrollable to apply pressure to the head and neck. The controller maybe configured to control pressure applied by the one or more pressureapplying regions (e.g., the pressure may be applied to one or moreportions of the head and neck at different times during a compressiontherapy period).

In one or more embodiments, the one or more pressure applying regionsmay be controllable to apply pressure to one or more portions of thehead and neck to move lymph at least from the head towards the neck anddownward therefrom. In one or more embodiments, the static garmentportion may be configurable to apply a static pressure to a portionunder a chin of the head. In one or more embodiments, one or morepressure applying regions may be controllable to apply pressure to aportion under the chin. In one or more embodiments, the dynamic garmentportion may include a first neck garment portion positionable proximatea right portion of the neck of the body and a second neck garmentportion positionable proximate a left portion of the neck of the body.The first neck garment portion may include pressure applying regionsseparate from pressure applying regions of the second neck garmentportion. In one or more embodiments, the controller may be configured tocontrol pressure applied by the first and second neck garment portionsalternately. In one or more embodiments, the first neck garment portionmay be positionable proximate a right side and a right posterior side ofthe neck of the body and the second neck garment portion may bepositionable proximate a left side and a left posterior side of the neckof the body.

In one or more embodiments, the garment may define an open regionproximate an anterior portion of the neck of the body adjacent thetrachea when donned on the body. In one or more embodiments, the dynamicgarment portion may include a right cheek garment portion positionableproximate a right cheek of the head of the body and a left cheek garmentportion positionable proximate a left cheek of the head of the body. Atleast one of the one or more pressure applying regions may becontrollable to apply pressure to a portion of each of the left andright cheeks. In one or more embodiments, the static garment portion mayinclude one or more under chin connection elements. The one or moreunder chin connection elements may include a static compression surfacepositionable proximate under the chin of the head. The one or more underchin connection elements may be configured to connect the right cheekgarment portion and the left cheek garment portion. In one or moreembodiments, the dynamic garment portion may include a posterior headgarment portion positionable proximate a posterior of the head of thebody. At least one of the one or more pressure applying regions may becontrollable to apply pressure to a portion of the posterior of thehead. In one or more embodiments, the one or more pressure applyingregions may be configured to move lymph from a portion under the chin, aportion of each of the left and right cheeks, and a portion of theposterior of the head towards a portion of the neck.

In one or more embodiments, the garment may further include one or morenasal connection elements positionable proximate a nasal bridge of thehead of the body. The one or more nasal connection elements may beconfigured to connect the right cheek garment portion and the left cheekgarment portion. In one or more embodiments, the garment further mayinclude one or more forehead connection elements configured for use indonning the garment on the head of the body. In one or more embodiments,the static garment portion may be further configurable to apply a staticpressure to a forehead and temples of the head.

In one or more embodiments, each of the one or more pressure applyingregions may include one or more cells configured to receive a fluid(e.g., air). In one or more embodiments, each of the one or morepressure applying regions may include one or more actuatable elementsconfigured to apply pressure to one or more portions of the head andneck. In one or more embodiments, at least a portion of the one or morepressure applying regions may define an arcuate shape. In one or moreembodiments, at least a portion of the static garment portion mayinclude at least a portion of the dynamic garment portion controlled toapply a static pressure to a portion of the body.

In one or more embodiments, the compression garment system may alsoinclude a torso garment portion positionable proximate a torso of thebody. The torso garment portion may include one or more torso pressureapplying regions controllable to apply pressure to a portion of thetorso. The controller may be configured to control pressure applied byeach of the one or more head pressure applying regions, the one or moreneck pressure applying regions, and the one or more torso pressureapplying regions to move lymph at least from the head towards the torso.In one or more embodiments, the torso garment portion may be coupled tothe garment configured to be donned on the head and neck. In one or moreembodiments, the torso garment portion may include a right axillarygarment portion positionable proximate a right under arm region of thetorso and a left axillary garment portion positionable proximate a leftunder arm region of the torso. The right and left axillary garmentportions may include one or more axillary pressure applying regions andthe one or more axillary pressure applying regions may be controllableto apply pressure to a portion of the right and left under arm regions.

An exemplary compression garment system described herein may include agarment configured to be donned on a head and a neck of a body and acontroller. The garment may be configurable to apply static pressure toone or more portions of the body. The garment may include a plurality ofpressure applying regions controllable to apply dynamic pressure to aportion of the body. The controller may be configured to controlpressure applied by each of the plurality of pressure applying regions;the pressure being applied to one or more portions of the head and neckat different times during a compression therapy period.

In one or more embodiments, the plurality of pressure applying regionsmay be controllable to apply pressure to one or more portions of thehead and neck to move lymph at least from the head towards the neck anddownward therefrom. In one or more embodiments, the plurality ofpressure applying regions may be controllable to apply dynamic pressureto one or more portions of the head and neck after the garment may beconfigured to apply static pressure to one or more portions of the headand neck. In one or more embodiments, the garment may be furtherconfigured to be donned on a torso of the body and the plurality ofpressure applying regions may be controllable to apply dynamic pressureto the torso of the body.

An exemplary method of compression therapy described herein may includedonning a garment on at least a portion of a head and neck of a body.The garment may include a plurality of pressure applying regions. Themethod may also include applying a static pressure to at least under achin of the head using an under chin garment portion of the garment. Themethod may further include applying a dynamic pressure to one or moreportions of the head and neck of the body using the plurality ofpressure applying regions. Applying a dynamic pressure may includeapplying pressure to one or more portions of the head and neck atdifferent times during a compression therapy period.

In one or more embodiments, the method may also include controlling thedynamic pressure applied to one or more portions of the head and neck ofthe body by the plurality of pressure applying regions to move lymph atleast from the head and neck downwards. In one or more embodiments,applying a dynamic pressure to the head and neck of the body using theplurality of pressure applying regions may include applying dynamicpressure to the head of the body by at least one of the plurality ofpressure applying regions and thereafter applying dynamic pressure tothe neck of the body by at least one of the plurality of pressureapplying regions (e.g., application of pressure to the head of the bodyand to the neck of the body).

In one or more embodiments, the method may further include donning thegarment on at least a portion of a torso of the body (e.g., the garmentconfigured to be donned on at least a portion of the torso of the bodymay be coupled to the garment configured to be donned on at least aportion of the head and neck of the body). The method may includeapplying a dynamic pressure to the torso of the body using the pluralityof pressure applying regions. In one or more embodiments, the method mayalso include applying a static pressure to a forehead and temples of thehead using a forehead garment portion of the garment. In one or moreembodiments, the method may further include applying a dynamic pressureunder the chin of the head using at least one of the plurality ofpressure applying regions.

The above summary is not intended to describe each embodiment or everyimplementation of the present disclosure. A more complete understandingwill become apparent and appreciated by referring to the followingdetailed description and claims taken in conjunction with theaccompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A is a front perspective view of an exemplary compression systemlocated on a body.

FIG. 1B is a rear perspective view of the exemplary compression systemof FIG. 1A located on the body.

FIG. 2A is an exemplary side view of a head and a neck of a human bodyillustrating the directional flow of lymph through the head and neckusing the exemplary compression system.

FIG. 2B is a perspective view of a head and a neck of a human bodyillustrating specific lymph nodes and the directional flow of lymphthrough the head and neck using the exemplary compression system.

FIG. 2C is an exemplary back view of a human body illustrating specificlymph nodes and the directional flow of lymph through the body using theexemplary compression system.

FIG. 3 is a plan view of an exemplary head garment portion of acompression garment system such as shown in FIGS. 1A-1B including one ormore pressure applying regions.

FIG. 4 is a plan view of an exemplary neck garment portion of acompression garment system such as shown in FIGS. 1A-1B including one ormore pressure applying regions.

FIG. 5 is a plan view of a torso garment portion of a compressiongarment system such as shown in FIGS. 1A-1B including one or morepressure applying regions.

FIG. 6 is a plan view of the exemplary head garment portion of FIG. 3coupled to the exemplary neck garment portion of FIG. 4.

FIG. 7 is a plan view of the exemplary head garment portion of FIG. 3coupled to the exemplary neck garment portion of FIG. 4 and theexemplary torso garment portion of FIG. 5 couplable to the exemplaryneck garment portion of FIG. 4.

FIG. 8A is a cross-sectional view of one or more cells (e.g., inflatablecells) of an exemplary compression garment that may be used with one ofthe exemplary garment portions such as shown in FIGS. 1A-1B, 3-7, and9-10.

FIG. 8B is a cross-sectional view of one or more cells includingactuatable elements (e.g., without inflatable cells) of an exemplarycompression garment that may be used with one of the exemplary garmentportions such as shown in FIGS. 1A-1B, 3-7, and 9-10.

FIG. 9 is a front perspective view of another exemplary compressionsystem located on a body.

FIG. 10 is a rear perspective view of the exemplary compression systemof FIG. 9 located on the body.

FIG. 11 is a block diagram of an exemplary method of compression therapythat may be implemented using one of the exemplary compression systemsof FIGS. 1A-1B and 9-10.

FIG. 12 is a block diagram of another exemplary method of compressiontherapy that may be implemented using one of the exemplary compressionsystems of FIGS. 1A-1B and 9-10.

FIG. 13A is a block diagram of yet another exemplary method ofcompression therapy that may be implemented using one of the exemplarycompression systems of FIGS. 1A-1B and 9-10.

FIG. 13B is a block diagram of one of the processes illustrated by theexemplary method of compression therapy of FIG. 13A.

FIG. 13C is a block diagram of another one of the processes illustratedby the exemplary method of compression therapy of FIG. 13A.

FIG. 14 is on exemplary illustration of a portion of a torso garmentincluding a tightening apparatus (e.g., a lacing system) to assist indonning the garment.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

In the following detailed description of illustrative embodiments,reference is made to the accompanying figures of the drawing, which forma part hereof, and in which are shown, by way of illustration, specificembodiments which may be practiced. It is to be understood that otherembodiments may be utilized and structural changes may be made withoutdeparting from (e.g., still falling within) the scope of the disclosurepresented hereby.

Exemplary apparatus, systems, structures, and methods shall be describedwith reference to FIGS. 1-14. It will be apparent to one skilled in theart that elements from one embodiment may be used in combination withelements of the other embodiments, and that the possible embodiments ofsuch apparatus and systems using combinations of features set forthherein is not limited to the specific embodiments shown in the Figuresand/or described herein. Further, it will be recognized that theembodiments described herein may include many elements that are notnecessarily shown to scale. Still further, it will be recognized thatthe size and shape of various elements herein may be modified but stillfall within the scope of the present disclosure, although certain one ormore shapes and/or sizes, or types of elements, may be advantageous overothers.

The present disclosure relates generally to compression garments thatinclude garment portions that are configured to be donned on at least aportion of a body (e.g., person, animal, etc.) and configured to applypressure to that portion of the body, compression garment systems thatinclude compression garments and apparatus for controlling pressureapplied to at least a portion of a body, and methods using suchcompression garments and compression garment systems (e.g., methods ofdonning a garment, methods of controlling pressure applied to the body,methods of applying a static and/or dynamic pressure, etc.)

Compression garment systems (e.g., such as compression garmentsdescribed in U.S. Pat. No. 6,179,796 entitled “Lymphedema treatmentsystem,” U.S. Pat. No. 6,645,165 entitled “Lymphedema treatment system,”U.S. Pat. No. 6,860,862 entitled “Lymphedema Treatment System,” and U.S.Pat. No. 6,966,884 entitled “Lymphedema Treatment System,” which areherein incorporated by reference and which may modify and be modifiedwith features described herein) may be used for various reasonsincluding therapy for people with lymphedema, animals requiring therapy,wound therapy, etc. As used herein, the term body refers to not onlyhumans but any other animal species that may benefit from the conceptsand features described herein. These compression garments may be placedaround at least a portion of an individual's body and used to applypressure to the body at an affected extremity (e.g., head, neck, arm,torso, a shoulder, etc.). Some embodiments described herein may includea compression system having a garment configured to be positioned on(e.g., wrapped around, placed adjacent, located in proximity to, etc.)at least a portion of a body (e.g., human body, arm, torso, a shoulder,head, neck, etc.). The compression garments may be donned (e.g., put on)and doffed (e.g., taken off) by individuals themselves or with help fromothers. The garment may also include one or more cells (e.g.,compartments) distributed along a length of the garment configured toreceive a fluid (e.g., air) to perform compression therapy.

The compression therapy provided by the compression garment systems mayhelp to treat lymphedema. Lymphedema is a condition of localized fluidretention and tissue swelling that may be inherited, caused by cancertreatments, caused by parasitic infections, etc. For example, lymphedemaof the head and neck may cause swelling around the head, neck,submandibular area, cheek, nose, eyelids, etc. Compression garmentsdescribed herein covering the head and neck may be used by an affectedindividual to provide a therapeutic benefit. Specifically, thecompression garments may be configured to manipulate lymph nodes orvessels by applying pressure to move lymph toward more beneficiallocations (e.g., toward drainage areas, away from affected regions,etc.). For example, compression therapy using the systems describedherein may be performed around the head and neck area to help treatlymphedema in the head and neck area by, e.g., moving lymph towards thetorso.

The compression garments described herein may be configured to applypressure to the affected regions of the body to apply compressiontherapy. The compression garments may include various portions that eachincludes controllable pressure applying regions. Each controllablepressure applying region may be configured to apply pressure to aspecific portion of the body (e.g., at a specific time during therapy).The controllable pressure applying regions may work in combination withone another to help provide therapy by applying a sequence of pressureson the body that moves lymph in a desired direction (e.g., from the headtowards the neck, from the neck towards the torso, etc.). Suchapplication of a sequence of pressures on the body that moves lymph(e.g., pressure being applied to one or more portions of the head andneck, at different times during a compression therapy period) may bereferred to as applying dynamic pressure to the body.

The controllable pressure applying regions of the compression garmentsmay also apply static pressure to the body. For example, the compressiongarments may apply a constant pressure when a portion of the garment ispositioned on the body over a therapy time period (e.g., static pressureover the therapy time period) or may apply a pressure that may becontrolled to change over time during the therapy time period (e.g.,dynamic pressure). In one or more embodiments, the dynamic pressure maybe applied to the portion of the body through one or more cells in thecompression garment. The one or more cells may be configured to receivefluid. Alternately, or in combination with one or more fluid receivingcells, such pressures may be applied using one or more actuatableelements in the compression garment configured to apply pressure to thebody (e.g., electrically controlled materials suitable to providecompression).

An exemplary compression garment system 100 including a garment 101(e.g., compression garment) configured to be positioned around at leasta portion of a body (e.g., a human body 10 as shown in FIGS. 2A-2C) isshown in FIGS. 1A-1B. The garment 101 may be positioned relative to thebody in a variety of different ways (e.g., relative to a head 14, a neck11, an anterior portion of the body 10, a posterior portion of the body10, a forehead 15, under a chin 18, a left and right cheek 16, 17, atorso 20 as shown in FIGS. 2A-2C). For example, as shown in FIGS. 1A-1Bthe garment 101 is positioned around the head, neck and torso of thebody. In one or more embodiments, the garment 101 may also cover thearms, waist, legs, or any other portion of the body.

As shown in FIGS. 1A-1B the garment 101 is positioned on the head, neckand torso of the body. In other embodiments, the garment 101 may includeonly portions positioned on the head and neck of the body. Stillfurther, in other embodiments, the garment 101 may include only portionspositioned on the head of the body. The garment 101 may include a headgarment portion 120 positioned proximate the head and a neck garmentportion 110 positioned proximate the neck.

In one or more embodiments, the head garment portion 120 and the neckgarment portion 110 may be coupled to one another. For example, the headgarment portion 120 and the neck garment portion 110 may be coupled toone another at the posterior of the body, the anterior of the body,along the portion in which the head and neck garment portions 120, 110intersect, etc. Still further, in one or more embodiments, the headgarment portion 120 and the neck garment portion 110 may be coupled toone another along the entire portion in which the head and neck garmentportions 120, 110 intersect (e.g., where such portions lie next to oneanother) or only along portions thereof (e.g., leaving openings at thecoupling region for the garment to flex and adapt to the body of theuser).

The garment 101 may also include a torso garment portion 140 configuredto be positioned proximate the torso of the body. In one or moreembodiments, the torso garment portion 140 may be couplable to the neckgarment portion 110 (e.g., the torso garment portion 140 may be separatefrom the head garment or the head and neck garment, may be removablycouplable to the head garment or the head and neck garment, for example,using hook and loop fasteners, etc.). For example, torso garment portion140 and the neck garment portion 110 may be coupled to one another atthe posterior of the body, the anterior of the body, along the portionin which the torso garment portion 140 and neck garment portion 110intersect, etc. Still further, in one or more embodiments, the torsogarment portion 140 and the neck garment portion 110 may be coupled toone another along the entire portion in which the torso garment portion140 and neck garment portions 110 intersect (e.g., where such portionslie next to one another) or only along portions thereof (e.g., leavingopenings at the coupling region for the garment to flex and adapt to thebody of the user).

As shown in FIGS. 1A-1B, the garment 101 may also include an open region115 between the neck garment portion 110 and the torso garment portion140 proximate the anterior portion of the neck and adjacent the tracheawhen the garment 101 is positioned on the body. The open region 115 mayallow access to the airway of an individual wearing the garment 101.

The garment 101 may include pressure applying regions (e.g., as shown inFIGS. 3-7) located at regions of the garment 101. Each of the pressureapplying regions may be controllable or configurable to apply pressureto a portion of the body. For example, the head garment portion 120 mayinclude head pressure applying regions that are controllable orconfigurable to apply pressure to one or more portions of the head(e.g., to the forehead, cheeks, under the chin, posterior head), theneck garment portion 110 may include neck pressure applying regions thatare controllable or configurable to apply pressure to one or moreportions of the neck (e.g., posterior neck regions, side neck regions,etc.), and the torso garment portion 140 may include torso pressureapplying regions controllable or configurable to apply pressure to oneor more portions of the torso (e.g., torso regions under each arm, theanterior torso, the posterior torso, etc.). As shown in FIGS. 1A-1B, thegarment 101 may include an exterior material covering the pressureapplying regions.

The head garment portion 120 may be configured to be donned on the headof the body. In other words, the head garment portion 120 may bepositioned on and secured to the head of the body (e.g., secured usingfasteners across the nose, fasteners across the forehead, fastenersunder the chin, fasteners over the top of the head, etc.). For example,such fastening apparatus may allow one garment to be adjusted for usewith different size and shaped body parts. In one or more embodiments,the head garment portion 120 may be described as configured to bepositioned around both sides of the head of the body from the posteriorof the head to the anterior of the head.

The head garment portion 120 may include a posterior head garmentportion 128, a right head garment portion 134, and a left head garmentportion 136. The posterior head garment portion 128 may be positionableproximate a posterior of the head of the body. The right head garmentportion 134 may extend from the posterior head garment portion 128 andbe positionable on (e.g., wrapped around) a right side of the head fromthe posterior of the head to an anterior of the head. The left headgarment portion 136 may extend from the posterior head garment portion128 and be positionable on (e.g., wrapped around) a left side of thehead from the posterior of the head to the anterior of the head. Theposterior head garment portion 128, the right head garment portion 134,and the left head garment portion 136 (or each of such portions) mayinclude pressure applying regions (e.g., each of the one or more headpressure applying regions for applying compression on regions of thebody associated with each of such portions, one or more head pressureapplying regions for applying compression on one or more regions of thebody corresponding to one or more portions of the garment, etc.) thatare configurable or controllable to apply pressure to the posterior ofthe head, the right side of the head, and the left side of the head.

The head garment portion 120 may also include a right cheek garmentportion 122 and a left cheek garment portion 124. The right cheekgarment portion 122 may be positionable proximate a right cheek of thehead and the left cheek garment portion 124 may be positionableproximate a left cheek of the head. Each of the right and left cheekgarment portions 122, 124 may include pressure applying regions (e.g.,one or more cheek pressure applying regions) that may be configurable orcontrollable to apply pressure to a portion of cheek. The head garmentportion 120 may also include an under chin garment portion 125. Theunder chin garment portion 125 may include pressure applying regions(e.g., one or more under chin pressure applying regions) that may beconfigurable to apply pressure to a portion under the chin (e.g., at the“waddle” area).

The head garment portion 120 may be donned on the head of the body in avariety of different ways. For example, portions of the head garmentportion 120 may be attached to other portions of the head garmentportion 120 using a variety of different straps or connection elements.Any suitable connection apparatus may be used for donning the headgarment portion 120 or any other garment portion described herein, suchas flexible or rigid connection elements, hook and loop fasteners,straps connected to the garment, additional or separate connectiongarment elements or straps, mating hooks, elements shaped to form to abody part (such as the bridge of the nose), etc.

These straps and connection elements may keep portions of the headgarment portion 120 (e.g., surfaces associated with pressure applyingregions) close to the surface of body such that the head garment portion120 may effectively apply pressure to a particular portion of the body(e.g., the cheeks, under the chin, forehead, temples), such as, forexample, when fluid is provided to cells of pressure applying regions.In other words, the straps or connection elements may assist inpreventing the head garment portion 120 from moving away from thesurface of portion of the body when pressure is being applied usingpressure applying regions (e.g., such as when fluid is provided to cellsof pressure applying regions) and instead, e.g., stay near the portionof the body such that pressure may be effectively applied. The differentstraps or connection elements keep the garment portions from moving awayfrom the body as pressure is being applied such that even pressureapplying regions (e.g., to apply pressure evenly) at edges of thegarment are maintained in position during application of pressure tobody regions adjacent such edges (e.g., garment edges proximate thecheeks of the head, garment edges near the chin of the head, garmentedges near under the chin, garment edges near the temples of the head,etc.).

For example, the head garment portion 120 may include the under chingarment portion 125, one or more nasal connection elements 130, aforehead garment portion 132, a top head strap 137, and a posterior headstrap 138, each of which may act as straps or connection elements tokeep the head garment portion 120 in place. The under chin garmentportion 125 may include one or more under chin connection elements 127configured to connect the right cheek garment portion 122 and the leftcheek garment portion 124. The one or more under chin connectionelements 127 may also be configured for use in donning the head garmentportion 120 on the head of the body (e.g., tightening the head garmentportion 120 into place on the head). In other words, the one or moreunder chin connection elements 127 may pull the right and left cheekgarment portions 122, 124 closer to one another when the head garmentportion 120 is positioned on the head to assist in donning the headgarment portion 120 on the head.

The one or more nasal connection elements 130 may be positionableproximate a nasal bridge of the head and configured to connect the rightcheek garment portion 122 and the left cheek garment portion 124 to,e.g., maintain the head garment portion 120 and right and left cheekgarment portions 122, 124 proximate the surface of the head and cheeks.For example, the one or more nasal connection elements 130 may include arigid portion shaped to be positioned adjacent the surface of the nasalbridge of the head (e.g., which rigid portion may be connected to theright cheek garment portion 122 and the left cheek garment portion 124by one or more flexible portions).

The forehead garment portion 132 may be positionable proximate aforehead of the head. The forehead garment portion 132 may include oneor more forehead connection elements that may be configured for use indonning the head garment portion 120 on the head. In other words, theone or more forehead connection elements may pull one portion of thehead garment portion 120 closer to another portion of the head garmentportion 120 to position (e.g., secure) the head garment portion 120 onthe head of the body. In one or more embodiments, the head garmentportion 120 may include one or more straps positioned proximate the topof the head and configured to assist in donning the head garment portion120 on the head. For example, the top head strap 137 and the posteriorhead strap 138 may be positioned proximate the top of the head and theposterior of the head, respectively, and may assist in donning the headgarment portion 120 to the head. In one or more embodiments, the tophead strap 137 and the posterior head strap 138 may cover the entire topof the head. As shown in FIGS. 1A-1B, the head garment portion 120defines a head open region 135 proximate a top portion of the head and,e.g., between the top head strap 137 and the posterior head strap 138.

One will recognize that any number of straps or connection elements maybe used to connect different portions of the head garment such that thepressure applying regions thereof are properly positioned adjacentdesired regions of the head and maintained in positioned as pressure isbeing applied either dynamically or statically.

The neck garment portion 110 coupled to the head garment portion 120 isshown in FIGS. 1A-1B. The neck garment portion 110 may be configured tobe donned on a neck of the body. In one or more embodiments, the neckgarment portion 110 may be described as configured to be positionedaround both sides of the neck from the posterior of the neck to theanterior of the neck. The neck garment portion 110 may include pressureapplying regions (e.g., one or more neck pressure applying regions) thatmay be configurable or controllable to apply pressure to a portion ofthe neck.

The neck garment portion 110 may include a first neck garment portion(e.g., right neck garment portion 112) and a second neck garment portion(e.g., left neck garment portion 114). The first neck garment portionmay be positionable proximate a right portion or side of the neck andthe second neck garment portion may be positionable proximate a leftportion or side of the neck. In one or more embodiments, the first neckgarment portion (e.g., right neck garment portion 112) may be describedas being positionable on (e.g., wrapped around) a right side of the neckfrom a posterior of the neck to an anterior of the neck and the secondneck garment portion (e.g., left neck garment portion 114) may bedescribed as being positionable on (e.g., wrapped around) a left side ofthe neck from the posterior of the neck to the anterior of the neck.

In one or more embodiments, the first neck garment portion is separatefrom the second neck garment portion (e.g., one portion may includepressure applying regions separate from those in the other portion). Inother embodiments, the first and second garment portions may be onepiece. Each of the first and second neck garment portions may beconfigurable or controllable to apply pressure to the right and leftsides of the neck, respectively. For example, the pressure applyingregions of first and second neck garment portions may be controllable orconfigurable to apply pressure alternately between each of the first andsecond neck garment portions, or simultaneously. Specifically, thepressure applying regions of first and second neck garment portions maybe controllable or configurable to apply pressure alternately during atherapy cycle of a therapy period (e.g., first neck garment portion thensecond neck garment portion then first neck garment portion and so on)between each of the first and second neck garment portions to helpminimize the chances of an individual passing out as lymph passes fromthe head through the neck to the torso during compression therapy.

The garment 101 may also include a torso garment portion 140positionable proximate a torso of the body as shown in FIGS. 1A-1B. Inone or more embodiments, the torso garment portion 140 may be describedas configured to be positioned around both sides of the torso from theposterior of the torso to the anterior of the torso. The torso garmentportion 140 may include pressure applying regions (e.g., one or moretorso pressure applying regions) configurable or controllable to applypressure to one or more portions of the torso. In one or moreembodiments, the torso garment portion 140 may be coupled to the headgarment portion 120. Further, in one or more embodiments, the neckgarment portion 110 may be coupled between at least a portion of thehead garment portion 120 and at least a portion of the torso garmentportion 140. In yet other embodiments, the torso garment portion 140 maynot be coupled to either the head garment portion 120 or the neckgarment portion 110. Further, the torso garment portion 140 may includea collar portion locatable proximate the neck of the body (e.g., usableto cover the neck of the body with or without the neck garment portion,for example, removably couplable to the neck garment portion,overlapping with the neck garment portion when donned, etc.).

The torso garment portion 140 may include a posterior torso garmentportion 150, a right torso garment portion 151, and a left torso garmentportion 152. The posterior torso garment portion 150 may be positionableproximate a posterior of the torso of the body, the right torso garmentportion 151 may extend from the posterior torso garment portion 150 andbe positionable to the anterior of the torso, and the left torso garmentportion 152 may extend from the posterior torso garment portion 150 andbe positionable to the anterior of the torso. In one or moreembodiments, the right torso garment portion 151 and the left torsogarment portion 152 may overlap proximate the anterior of the torso whenthe garment 101 is positioned on the body (e.g., as shown in FIG. 1A, atleast a portion of the left torso garment portion 152 overlaps a portionof the right torso garment portion 151). In one or more embodiments, theright torso garment portion 151 may define a right arm opening 153proximate a right arm of the body such that the right arm may extendoutward from the garment 101 and the left torso garment portion 152 maydefine a left arm opening 154 proximate a left arm of the body such thatthe left arm may extend outward from the garment 101.

The right and left torso garment portions 151, 152 may be coupled toeach other after donning the torso garment portion 140 on the torso ofthe body to attach (e.g., secure) the torso garment portion 140 to thetorso. The right torso garment portion 151 may be coupled to the lefttorso garment portion 152 in any suitable manner. For example, the rightand/or left torso garment portions 151, 152 may include fasteningapparatus to, e.g., fasten or couple a region of the right torso garmentportion 151 to a region of the left torso garment portion 152. Suchfastening apparatus may include hook and loop fasteners, or any otherfasteners described herein.

Further, for example, the garment 101 may include fastening apparatus180 (e.g., fastening structures) configured to couple the right torsogarment portion 151 to the left torso garment portion 152 (e.g.,proximate the anterior of the torso). For example, the fasteningapparatus 180 may include a right strap 181 couplable to the right torsogarment portion 151, a left strap 182 couplable to the left torsogarment portion 152, and a fastener 183 configured to couple the rightstrap 181 to the left strap 182. The fastener 183 may include a rightclasp coupled to the right strap 181 and a left clasp coupled to theleft strap 182. The right clasp may engage the left clasp to secure thefastener 183. The right and left straps 181, 182 may be couplable on theright and left torso garment portions 151, 152, respectively, using hookand loop fasteners. In other words, the right and left straps 181, 182may be adjustable on the right and left torso garment portions 151, 152and then coupled together using the fastener 183 (e.g., such as userreleasable mating elements, etc.). This allows the right and left straps181, 182 to be placed on the torso garment portion 140 in an initialfitting of the torso garment portion 140 on a patient, but then thetorso garment portion 140 may be donned and doffed with more ease usingthe fastener 183. For example, it provides the torso garment portion 140to be easily released and re-engaged by the individual wearing the torsogarment portion 140.

In one or more embodiments, the fastening apparatus 180 may include aright fastening portion that is removably couplable to the torso garmentportion 140 (e.g., at the right torso garment portion 151) and a leftfastening portion that is removably couplable to the torso garmentportion 140 (e.g., at the left torso garment portion 152). The right andleft fastening portions may be coupled to the torso garment portion 140using, e.g., hook and loop fasteners or any other suitable fastener. Theright and left fastening portions may be coupled together using a zipperor any other suitable way to couple the portions together. This designallows the right and left fastening portions to be placed initially tofit the torso garment portion 140 and then the torso garment portion 140may be donned and doffed (e.g., tightened and loosened) through zippingand unzipping the zipper. In other words, the right and left fasteningportions may stay attached to the torso garment portion 140 and only thezipper would need to move to don and doff the torso garment portion 140.

The right torso garment portion 151 may include a right chest garmentportion 142 and a right axillary garment portion 144. Each of the rightchest garment portion 142 and the right axillary garment portion 144 mayextend from the posterior torso garment portion 150 to the anterior ofthe torso. The right chest garment portion 142 may extend from a rightshoulder of the torso towards a right anterior region of the torso(e.g., right side of chest, right side of lower abdomen). The rightaxillary garment portion 144 may be positionable proximate a right underarm region of the torso.

The left torso garment portion 152 may include a left chest garmentportion 146 and a left axillary garment portion 148. Each of the leftchest garment portion 146 and the left axillary garment portion 148 mayextend from the posterior torso garment portion 150 to the anterior ofthe torso. The left chest garment portion 146 may extend from a leftshoulder of the torso towards a left anterior region of the torso (e.g.,left side of chest, left side of lower abdomen). The left axillarygarment portion 148 may be positionable proximate a left under armregion of the torso.

The compression garment system 100 may also include a controller 102 orcontrol apparatus configured to control the pressure applied to theportion of the body by each of the pressure applying regions of thegarment 101. For example, the controller 102 may control the pressureapplied to the portion of the body by each of the pressure applyingregions independent from one another or at the same time. Further, forexample, the pressure applying regions may be controlled in groups orcombinations. In one or more embodiments, the controller 102 may beconfigured to control the pressure applying regions in a variety ofdifferent sequences (e.g., applying pressure in a predetermined manner)that may be, e.g., suitable for carrying out lymphedema therapy.

Further, the controller 102 may control the pressure based on one ormore pressures measured by one or more pressure sensors associated withthe garment 101 (e.g., sensors provided in the garment 101 proximate thepressure applying regions). One or more compression garments that may bemodified with features (e.g., sensors) described herein may be similarto and include one or more features found in U.S. Pat. No. 6,860,862entitled “Lymphedema Treatment System,” U.S. Pat. No. 6,966,884 entitled“Lymphedema Treatment System,” U.S. Pat. No. 6,179,796 entitled“Lymphedema treatment system,” and U.S. Pat. No. 6,645,165 entitled“Lymphedema treatment system,” which are herein incorporated byreference.

In one or more embodiments, a control apparatus or controller 102 (e.g.,one or more processors employing one or more programs or routinescarrying out one or more methods or processes and implemented with oneor more types of memory) may be configured to control the system and/orone or more elements thereof (e.g., providing compression therapy by theone or more pressure applying regions, etc.). In one or moreembodiments, the control apparatus may be configured to control thecompression system using wired and/or wireless technology.

The methods and/or logic and/or configurations described in thisdisclosure, including those attributed to the systems, or variousconstituent components, may be implemented, at least in part, inhardware, software, firmware, or any combination thereof. For example,various aspects of the techniques may be implemented within one or moreprocessors, including one or more microprocessors, microcontrollers,DSPs, ASICs, FPGAs, or any other equivalent integrated or discrete logiccircuitry, as well as any combinations of such components, or otherdevices. The term “processor” or “processing circuitry” may generallyrefer to any of the foregoing logic circuitry, alone or in combinationwith other logic circuitry, or any other equivalent circuitry.

Such hardware, software, and/or firmware may be implemented within thesame device or within separate devices (e.g., within the system, outsideof the system, or a combination of both) to support the variousoperations and functions described in this disclosure. In addition, anyof the described components may be implemented together or separately asdiscrete but interoperable logic devices. Description of differentfeatures is intended to highlight different functional aspects and doesnot necessarily imply that such features must be realized by separatehardware or software components. Rather, functionality may be performedby separate hardware or software components, or integrated within commonor separate hardware or software components.

When implemented in software, the functionality ascribed to the systemsand methods described in this disclosure may be embodied as instructionsand/or logic on a computer-readable medium such as RAM, ROM, NVRAM,EEPROM, FLASH memory, magnetic data storage media, optical data storagemedia, or the like. The instructions and/or logic may be executed by oneor more processors to support one or more aspects of the functionalitydescribed in this disclosure.

Further, the compression garment system 100 may include a pump 103 thatmay be controlled by the controller 102 to provide a fluid to/from theone or more cells (e.g. one or more cells 803 as shown in FIG. 8A) ofeach of the pressure applying regions, e.g., a fluid such as a liquid orgas in the cells, so as to apply a compression therapy when thecompression garment 101 includes one or more fluid filled cells. Forexample, the pump 103 may be connected to one or more of the pluralityof cells corresponding to the plurality of pressure applying regions bya plurality of lines or tubing 105 so as to provide flow of fluidthereto or removal of fluid therefrom.

Further, in one or more embodiments, as shown in FIGS. 1A-1B, thecontroller 102 may be connected to one or more components of thecompression garment system via one or more electrical lines and/orwirelessly, as represented generally by dashed lines 104. For example,controller 102 may be connected to communicate and control the pressureapplying regions (e.g., such as electrically actuatable pressureapplying regions of the garment configured to apply pressure to thebody) either with use of physical electrical connections and/orwirelessly.

The controllable pressure applying regions of the garment 101 undercontrol of controller 102 allows the system 100 to provide compressiontherapy to an individual (e.g., a patient) wearing the garment 101 suchthat lymph flows throughout the body 10 in desired directions, e.g.,such as directions 40 as shown in FIG. 2A. In other words, bycontrolling the pressure applying regions in a variety of differentsequences (e.g., applying pressure in a predetermined manner), forexample, lymph may flow generally from the head 14 of the body 10towards the neck 11 of the body 10. For example, the lymph may becontrolled to flow from an anterior 30 of the head 14 towards aposterior 32 of the head 14 and downwards towards the neck 11.Specifically, for example, the lymph may flow from the forehead 15, thenasal bridge 19, and under the chin 18 towards the right cheek 17 anddownwards towards the neck 11 (e.g., right side of neck 12) and theposterior 25 of the torso 20. This direction 40 of lymph may providerelief to an individual by moving excess lymph from the head 14, andultimately, moving such lymph towards the torso 20 (e.g., trunk,shoulders, chest, back, waist, etc.).

The various nodes located in the head 14 and neck 11 of the body 10 areshown in FIG. 2B. For example, the submental lymph nodes 52 are locatedthe under chin 18 of the head 14 and the parotid lymph nodes 50 arelocated proximate the right cheek 17 and the left cheek 16 (parotidlymph nodes of left cheek 16 not shown in FIG. 2B). The accumulation oflymph may occur near the parotid lymph nodes 50 and the submental lymphnodes 52 and may be pushed during compression therapy by the compressiongarment donned on the body 10 towards the posterior 32 of the head 14 asillustrated by directional arrows 40 (e.g., by controlling the pressureapplying regions proximate at least the cheeks 16, 17 and under the chin18 in a predetermined manner). With continued compression therapy (e.g.,by controlling the pressure applying regions proximate at least thesides of the head 14 and the posterior 32 of the head 14), the lymphthen moves towards the submandibular lymph nodes 54 and superficial anddeep cervical lymph nodes 56 located proximate the neck 11. Thecompression therapy is then configured (e.g., by controlling thepressure applying regions proximate at least the neck 11 in apredetermined manner) to move lymph towards the right infra and supraclavicular lymph nodes 58 and the left infra and supra clavicular lymphnodes 60, which are located at the base of the neck 11 and proximate theright shoulder 24 and the left shoulder 23, respectively, and downwardstowards the torso 20.

Various nodes located in the posterior 32 of the head 14 and the torso20 are shown in FIG. 2C. During compression therapy using a compressiongarment (e.g., by controlling the pressure applying regions of the headgarment 120 and neck garment 110 in a predetermined manner), lymph maytravel downward along the posterior 32 of the body 10 from the head 14towards the torso 20. For example, lymph may travel from the top of thehead 14 towards the right retroauricular lymph nodes 66 and the rightoccipital lymph nodes 70 located proximate the right side 12 of the neck11 and towards the left retroauricular lymph nodes 68 and the leftoccipital lymph nodes 72 located proximate the left side 13 of the neck11. The compression therapy (e.g., by controlling the pressure applyingregions of the garment 101 in a predetermined manner) may then move thelymph further downwards from the head 14 and past the right and leftshoulders 23, 24 and towards the torso 20. Specifically, the lymph maymove towards the right axillary nodes 62 located proximate the rightunder arm region 21 and the left axillary nodes 64 located proximate theleft under arm region 22.

A plan view of the exemplary head garment portion 120 including one ormore head pressure applying regions 121 is shown in FIG. 3. In one ormore embodiments, at least a portion of the one or more head pressureapplying regions 121 may define an arcuate shape. The one or more headpressure applying regions 121 may be controllable (e.g., usingcontroller 102 as shown in FIGS. 1A-1B) to apply pressure to a portionof the head when the head garment portion 120 is positioned on the head.The one or more head pressure applying regions 121 may be located invarious locations within the head garment portion 120 to apply pressureto a variety of different locations on the head. For example, asdescribed herein, the head garment portion 120 may include the righthead garment portion 134 positionable proximate a right side of the headand the left head garment portion 136 positionable proximate a left sideof the head. The one or more head pressure applying regions 121associated with the right and left head garment portions 134, 136 may becontrollable to apply pressure to the right and left sides of the head,respectively.

In one or more embodiments, each of the one or more head pressureapplying regions 121 may be configured in any suitable manner such thatthe regions 121 may be controlled to apply pressure to a portion of thehead. For example, the one or more head pressure applying regions 121may include fluid chambers or cells, pneumatic pressure applyingregions, actuatable elements applying pressure to regions, hydraulicpressure applying regions, etc. Specifically, the one or more headpressure applying regions 121 shown in FIGS. 3-7, as well as the otherpressure applying regions of the other garment portions shown thereininclude one or more cells configured to receive fluid (e.g., air,liquid, etc.).

In one or more embodiments, the one or more head pressure applyingregions 121 may be configured to apply pressure to a portion of the headusing the one or more cells through the control of fluid providedthereto, e.g., fluid flow, air flow, etc. For example, the head garmentportion 120 may include one or more head garment ports 139 through whichfluid may be provided to the one or more cells (e.g., such as with useof pump 103 shown in FIGS. 1A-1B, under control of controller 102 withuse of a sensor feedback system). Further, in one or more embodiments,the one or more head pressure applying regions 121 may include one ormore head actuatable elements (e.g., non-fluid receiving regions)configured to apply pressure to a portion of the head (e.g., anelectrical signal may be used to actuate an element within the garment,such as electrically actuatable fibers in the garment, such that theregion including such fibers applies a pressure to a portion of thebody). In one or more embodiments, the one or more head pressureapplying regions 121 may include both one or more cells configured toreceive fluid and one or more head actuatable elements, both of whichmay be configured to apply pressure to a portion of the head.

Furthermore, as described herein, the head garment portion 120 mayinclude a right cheek garment portion 122 and a left cheek garmentportion 124, each of which may include one or more cheek pressureapplying regions 123 (e.g., each of the garment portions may include aportion of a pressure applying region shared with other garmentportions, for example, the same pressure applying region may be used toapply compression at locations of the body associated with the rightcheek and left cheek, and even the posterior garment portion). Each ofthe one or more cheek pressure applying regions 123 may be controllableto apply pressure to a portion of cheek to assist in moving lymphtherefrom. Each of the right cheek garment portion 122 and the leftcheek garment portion 124 may extend within the right and left headgarment portions 134, 136, respectively and terminate along right cheekand left cheek garment edges 161, 162 (e.g., portions of such edgesbeing located near the nasal bridge of the head; which portions may becoupled together by one or more nasal connection elements 130).

Similarly, as described herein, the head garment portion 120 may includethe under chin garment portion 125 that is configurable to applypressure to a portion under the chin (e.g., a “waddle” area). Forexample, the under chin garment portion 125 may include one or moreunder chin pressure applying regions 126. Each of the one or more underchin pressure applying regions 126 may be controllable to apply pressureto a portion under the chin to assist in moving lymph therefrom.

Also, as described herein, the head garment portion 120 may include theposterior head garment portion 128. The posterior head garment portion128 may include one or more posterior head pressure applying regions129. Each of the one or more posterior head pressure applying regions129 may be controllable to apply pressure to a portion of the posteriorof the head to move lymph therefrom (e.g., downward toward the torso).

Any number of pressure applying regions 121 may be configured in thehead garment portion 120 such that they may be controlled to move lymphas described, for example, with reference to FIGS. 2A-2C. For example,as shown in FIG. 3, three head pressure applying regions 121 areimplemented. However, any number of head pressure applying regions 121may be implemented (e.g., four head pressure applying regions 121 may beused). Each of the three pressure applying regions 121 may extend alongthe entire length of the head garment portion 120 positionable about thehead of a user (e.g., from the front right side of the head around theposterior of the head and towards the front left side of the head). Forexample, each of the head pressure applying regions 121 may extendwithin the under chin garment portion 125, the right and left cheekgarment portions 122, 124, and the posterior head garment portion 128(e.g., which may be beneficial in application of pressure in a downwardand rearward manner on the head). In other words, the under chin garmentportion 125, the right and left cheek garment portions 122, 124, and theposterior head garment portion 128 may be integral with each other suchthat head pressure applying regions 121 may span across one or morespecific portions. For example, application of pressure in the outerhead pressure applying region 121 (e.g., next to edges 161, 162),followed by application of pressure by more inward lying pressureapplying regions, may produce desired lymph movement.

In one or more embodiments, the head pressure applying regions 121 maybe positioned such that pressure may be applied in a progression fromthe front of the right and left cheeks (e.g., at the anterior of thehead) towards the posterior of the head. For example, pressure may beapplied to a region proximate the right and left cheek garment portions122, 124 at the anterior of the head, then proximate a middle of thecheeks at the right and left cheek garment portions 122, 124, and thenproximate a portion of the cheeks closer to the posterior of the head atthe right and left cheek garment portions 122, 124. In one or moreembodiments, as pressure is being applied at the right and left cheekgarment portions 122, 124 from the anterior of the head towards theposterior of the head, pressure may also be applied at the posteriorhead garment portion 128 from the top of the head towards the neck. Inone or more embodiments, this may occur due to the continuation of thethree head pressure applying regions 121 (e.g., as shown in FIG. 3)extending (e.g., along the length of the garment) between the right andleft cheek garment portions 122, 124 and across the posterior headgarment portion 128 (e.g., each of such pressure applying regions may beseparate cells supplied by separate fluid conduits). As describedherein, when a garment portion is described as including one or morepressure applying regions, such one or more pressure applying regionsmay be a separate pressure applying region or may be a pressure applyingregions shared with one or more other garment portions (e.g., checkgarment portions and posterior head garment portions may use the samepressure applying region to apply compression to a body portionassociated therewith).

However, such head pressure applying regions 121 may include any numberof different and separate cells along the wrappable length of the headgarment portion 120 and controllable to produce such desired lymphmovement. For example, the head pressure applying regions 121 may beseparable between the right and left cheek garment portions 122, 124 andthe posterior head garment portion 128. In other words, the headpressure applying regions 121 may be separated in any suitable way thatmay allow pressure to be applied from the right and left cheeks (e.g.,proximate the anterior of the head) towards the posterior of the headand/or from the top of the posterior of the head towards the neck (e.g.,to move lymph from the cheeks towards the neck at the posterior of thehead). For example, the head pressure applying regions 121 may beseparated such that each head pressure applying region 121 may beindependently controllable to move lymph in a desired direction (e.g.,as shown in FIGS. 2A-2C).

The head garment portion 120 may also include upper head garmentportions 131 proximate the top of the head to assist in applyingpressure and assist in donning the head garment portion 120. Forexample, the upper head garment portions 131 may include garment regions155 adjacent the outermost pressure applying region of the threepressure applying regions 121 to assist in securing the pressureapplying regions adjacent the surface of the head when pressure is beingapplied. Further, for example, the head garment portion 120 may includethe posterior head strap 138 positionable proximate the top andposterior of the head (e.g., using hook and loop fastener connectionelements), the top head strap 137 positionable proximate the top of thehead (e.g., a separate strap connectable to two different regions 163 ofthe head garment portion 120 across the top of the head when the headgarment portion 120 is donned), and the forehead garment portion 132positionable proximate the forehead (e.g., using hook and loop fastenerconnection elements).

The forehead garment portion 132 may be configurable to apply pressureto a portion of the forehead. In one or more embodiments, the foreheadgarment portion 132 may include one or more forehead pressure applyingregions 133 controllable to apply pressure to a portion of the forehead.One will recognize that any number of upper head garment portions 131may be used to secure the head garment portion 120 on the head. Forexample, although the figures provided herein show straps for use indonning the head garment portion 120, the head garment portion 120 maybe provided in a stocking cap like configuration where no straps areused in the entire top of the head is covered.

A plan view of the exemplary neck garment portion 110 including one ormore neck pressure applying regions 111 is shown in FIG. 4. In one ormore embodiments, at least a portion of the one or more neck pressureapplying regions 111 may define an arcuate shape. The one or more neckpressure applying regions 111 may be controllable (e.g., usingcontroller 102 as shown in FIGS. 1A-1B) to apply pressure to a portionof the neck when the neck garment portion 110 is positioned on the neck.

In one or more embodiments, the neck garment portion 110 may include afirst neck garment portion (e.g., right neck garment portion 112) and asecond neck garment portion (e.g., left neck garment portion 114). Eachof the first and second neck garment portions may include one or moreneck pressure applying regions 111. In one or more embodiments, the oneor more neck pressure applying regions 111 of the first and second neckgarment portions may be separated by a divider 113. In other words, thedivider 113 separates pressure applied by the one or more neck pressureapplying regions 111 of the first neck garment portion 112 from the oneor more neck pressure applying regions 111 of the second neck garmentportion 114.

In one or more embodiments, each of the one or more neck pressureapplying regions 111 may be configured such that they may be controlledto apply pressure to a portion of the neck. For example, the one or moreneck pressure applying regions 111 may include fluid chambers or cells,pneumatic pressure applying regions, actuatable elements applyingpressure to regions, hydraulic pressure applying regions, etc.Specifically, the one or more neck pressure applying regions 111 mayinclude one or more cells configured to receive fluid as shown in FIG.4.

For example, in one or more embodiments, the one or more neck pressureapplying regions 111 may be configured to apply pressure to a portion ofthe head using the one or more cells through the control of fluidprovided thereto, e.g., fluid flow, air flow, etc. (e.g., such as withuse of pump 103 shown in FIGS. 1A-1B, under control of controller 102with use of a sensor feedback system). For example, the neck garmentportion 110 may include one or more neck garment ports 119 through whichfluid may be provided to the one or more cells. In one or moreembodiments, the neck garment portion 110 may include two neck garmentports 119, one in each of the right and left neck garment portions 112,114 (e.g., such as for use in alternating application of pressurebetween the right and left sides of the neck).

Further, in one or more embodiments, the neck pressure applying regions111 may include one or more neck actuatable elements (e.g., non-fluidreceiving regions) configured to apply pressure to a portion of the neck(e.g., an electrical signal may be used to actuate an element within thegarment, such as electrically actuatable fibers in the garment, suchthat the compartment including such fibers applies a pressure to aportion of the body). In one or more embodiments, the one or more neckpressure applying regions 111 may include both one or more cellsconfigured to receive fluid and one or more neck actuatable elements.

Any number of pressure applying regions 111 may be configured in theneck garment portion 110 such that they may be controlled to move lymphas described, for example, with reference to FIGS. 2A-2C. For example,as shown in FIG. 4, one pressure applying region 111 is implemented(e.g., although with use of the dotted additional port 119 and thedivider 113, two pressure applying regions 111 is also shown as beingimplemented). The single pressure applying region 111 may extend alongthe entire length of the neck garment portion 110 positionable about theneck of a user. For example, the pressure applying region 111 may extendwithin the neck garment portion 110 from a first end 211 to a second end213. However, such pressure applying regions 111 may include any numberof different and separate cells along the wrappable length of the neckgarment portion 110 and controllable to produce desired lymph movement(e.g., multiple cells along the length, parallel cells along the width,etc.).

A plan view of the exemplary torso garment portion 140 including one ormore torso pressure applying regions 141 is shown in FIG. 5. Any numberof torso pressure applying regions 141 may be implemented (e.g., thetorso garment portion 140 may include eight torso pressure applyingregions 141). In one or more embodiments, at least a portion of the oneor more torso pressure applying regions 141 may define an arcuate shape(e.g., curved portions of the torso pressure applying regions 141extending over the shoulders of a user from the posterior to theanterior). For example, arcuate shapes (e.g., of any of the portions ofthe garment) that may be similar to and include one or more featuresfound in U.S. Pat. No. 6,860,862 entitled “Lymphedema Treatment System,”U.S. Pat. No. 6,966,884 entitled “Lymphedema Treatment System,” U.S.Pat. No. 6,179,796 entitled “Lymphedema treatment system,” and U.S. Pat.No. 6,645,165 entitled “Lymphedema treatment system,” which are hereinincorporated by reference. The one or more torso pressure applyingregions 141 may be configured to be controlled (e.g., using controller102 as shown in FIGS. 1A-1B) to apply pressure to one or more portionsof the torso when the torso garment portion 140 is positioned on thetorso.

The one or more torso pressure applying regions 141 may be located invarious locations within the torso garment portion 140 to apply pressureto a variety of different locations on the torso. For example, the torsogarment portion 140 may include a right torso garment portion 151positionable proximate the right side of the torso, a left torso garmentportion 152 positionable proximate the left side of the torso, and aposterior torso garment portion 150 positionable proximate the posteriorof the torso. The one or more torso pressure applying regions 141associated with the right, left, and posterior torso garment portions151, 152, 150 may be controllable to apply pressure to the right side,left side, and posterior of the torso, respectively. In one or moreembodiments, the right torso garment portion 151 may be described aspositioned proximate a right anterior portion and right side of thetorso and the left torso garment 152 may be described as positionableproximate a left anterior portion and a left side of the torso; thetorso pressure applying regions 141 associated with such regions may becontrollable or configured to apply pressure to each of the right andleft anterior portions of the torso and the right and left sides of thetorso.

In one or more embodiments, each of the one or more torso pressureapplying regions 141 may be configured in any suitable manner such thatthe regions 141 may be controlled to apply pressure to a portion of thetorso to move lymph as desired. For example, the one or more torsopressure applying regions 141 may include fluid chambers or cells,pneumatic pressure applying regions, actuatable elements applyingpressure to regions, hydraulic pressure applying regions, etc.Specifically, the one or more torso pressure applying regions 141 mayinclude one or more cells configured to receive fluid (e.g., air).

For example, in one or more embodiments, the one or more torso pressureapplying regions 141 may be configured to apply pressure to a portion ofthe torso using the one or more cells through the control of fluidprovided thereto, e.g., liquid flow, air flow, etc. For example, thetorso garment portion 140 may include one or more torso garment ports159 through which fluid may be provided to the one or more cells (e.g.,such as with use of pump 103 shown in FIG. 1, under control ofcontroller 102 with use of a sensor feedback system).

Further, in one or more embodiments, the one or more torso pressureapplying regions 141 may include one or more torso actuatable elementsconfigured to apply pressure to a portion of the torso (e.g., anelectrical signal may be used to actuate an element within the garment,such as electrically actuatable fibers in the garment, such that thecompartment including such fibers applies a pressure to a portion of thebody). In one or more embodiments, the one or more torso pressureapplying regions 141 may include both one or more cells configured toreceive fluid and one or more torso actuatable elements.

Further, in one or more embodiments, the right torso garment portion 151may include a right chest garment portion 142 positionable proximate theright shoulder and chest of the torso and a right axillary garmentportion 144 positionable proximate the right under arm and right waistof the torso. The right chest garment portion 142 may include one ormore right chest pressure applying regions 143 controllable to applypressure to a portion of the right chest and right shoulder. The rightaxillary garment portion 144 may include one or more right axillarypressure applying regions 145 controllable to apply pressure to aportion of the torso under the right under arm of the torso.

Still further, the left torso garment portion 152 may also include aleft chest garment portion 146 positionable proximate the left shoulderand chest of the torso and a left axillary garment portion 148positionable proximate the left under arm and left waist of the torso.The left chest garment portion 146 may include one or more left chestpressure applying regions 147 controllable to apply pressure to aportion of the left chest and left shoulder. The left axillary garmentportion 148 may include one or more left axillary pressure applyingregions 149 controllable to apply pressure to a portion of the torsounder the left under arm. Each of the pressure applying regions 141 ofthe torso garment portion 140 may be controllable to apply pressure to aportion of the torso to move lymph as desired (e.g., downward from theneck and shoulder regions to lower portions of the torso).

Any number of pressure applying regions 141 may be configured in thetorso garment portion 140 such that they may be controlled to move lymphas described, for example, with reference to FIGS. 2A-2C. For example,as shown in FIG. 5, a plurality of pressure applying regions 141 aredistributed in the torso garment portion 140. In one or moreembodiments, the plurality of pressure applying regions 141 may includean upper torso pressure applying region 261 (e.g., adjacent an upperedge 262 of the torso garment portion 140) positionable for applyingpressure to the upper posterior torso region and upper anterior torsoregion of the body. Further, in one or more embodiments, the pluralityof pressure applying regions 141 may include a lower torso pressureapplying region 263 (e.g., primarily extending in the axillary garmentportions 144, 148) positionable for applying pressure primarily to thelower posterior torso region and the lower anterior torso region of thebody.

One or more of the pressure applying regions 141 may extend along theentire wrappable length of the torso garment portion 140 (e.g., thewrappable length of the torso garment portion 140 being a length of thecurve extending from the left chest garment portion 146 to the rightchest garment portion 142). For example, one or more of the pressureapplying regions 141 may extend within the left chest garment portion146, the posterior torso garment portion 150, and the right chestgarment portion 142. For example, application of pressure in the uppertorso pressure applying region 261 (e.g., next to edge 262), followed byapplication of pressure by lower pressure applying regions, may producedesired lymph movement. However, such pressure applying regions 141 mayinclude any number of different and separate cells within the torsogarment portion 140 and controllable to produce desired lymph movement.

In one or more embodiments (e.g., as shown in FIGS. 1A-1B), the rightchest garment portion 142, the right axillary garment portion 144, theleft chest garment portion 146, and the left axillary garment portion148 may be configured to overlap over a portion of the body (e.g., overthe anterior portion of the torso of the body). In one or moreembodiments, the right chest garment portion 142, the right axillarygarment portion 144, the left chest garment portion 146, and the leftaxillary garment portion 148 may overlap such that the pressure applyingregions 143, 145, 147, 149 are positioned next to the portion of thebody to which such pressure applying regions are to apply pressure fordesired lymph movement. For example, right and left chest garmentportions 142, 146 may be positioned on the body first, followed by theright and left axillary garment portions, 144, 148. Furthermore, theright axillary garment portion 144 may define a right axillary garmentportion end 164 (e.g., terminating the portion 144) that may beconfigured to be coupled (e.g., using hook and loop fasteners) to a leftaxillary garment portion end 168 that is defined by the left axillarygarment portion 148 (e.g., terminating the portion 148).

Further, in one or more embodiments, the right and left chest garmentportions 142, 146 may be coupled to one another using one or more torsostraps 185 (e.g., separate straps connectable, such as with use of hookand loop fasteners, to two different regions 142, 146 of the torsogarment portion 140 across the chest of the user when the torso garmentportion 140 is being donned). The one or more torso straps 185 may bepositioned along the right and left chest garment portions 142, 146 todon the torso garment portion 140 onto the torso of the body. In one ormore embodiments, the fastening apparatus 180 (e.g., as shown in FIGS.1A-1B) may include the one or more torso straps 185.

One will recognize that any number of connection elements may be used toconnect regions of the torso garment portion 140 for securing the torsogarment portion 140 on the body. Further, one will recognize that theshape and size of the torso garment portion 140 may take one of variousforms and is not limited to the wing shaped configuration of FIGS. 3-7.For example, the torso garment portion 140 may take the form of a morevest-like structure with openings to receive a user's arms as describedwith reference to FIGS. 9-10. Further, for example, the torso garmentportion 140 may also include arm garment portions (not shown) whichextend along a least a portion of the user's arm from shoulder region ofthe torso garment.

As shown in FIGS. 3-7, each of the head garment portion 120, the neckgarment portion 110, and the torso garment portion 140 is configured ina symmetrical manner generally with reference to the axis of a person'sbody. In other words, the various garment portions include sub-portionssymmetrical about an axis. For example, the head garment portion 120 asshown in FIG. 3 is symmetrical about axis 201 (e.g., one or moresub-portions, such as right cheek garment portion 122 and left cheekgarment portion 124 may be symmetrical about axis 201). In one or moreembodiments, sub-portions of one or more of the head garment portion120, the neck garment portion 110, and the torso garment portion 140which include pressure applying regions may be symmetrical about axis201, while other portions the head garment portion 120, the neck garmentportion 110, or the torso garment portion 140 may be non-symmetrical.Further, in one or more embodiments, non-symmetrical garments arecontemplated within the present disclosure (e.g., various garmentportions may be non-symmetrical to accomplish one or more variousfunctions such as related to donning or securing the garment on a user).

In one or more embodiments, the one or more pressure applying regions ofthe head garment portion 120, the neck garment portion 110, and thetorso garment portion 140 may be used in conjunction with one another.For example, the one or more neck pressure applying regions 111 may becontrollable to apply a pressure to the portion of the neck after theone or more head pressure applying regions 121 are controlled to applypressure to a portion of the head. In another example, the one or moreneck pressure applying regions 111 may be controllable to apply pressureto the portion of the neck and the one or more head pressure applyingregions 121 may be controllable to apply pressure to the portion of thehead to move lymph from the head towards the neck and downwardtherefrom. In yet another example, the one or more under chin pressureapplying regions 126, the one or more cheek pressure applying regions123, the one or more posterior head pressure applying regions 129, andthe one or more neck pressure applying regions 111 may be configured orcontrollable to move lymph from a portion under the chin towards theportion of the cheek, from the portion of the cheek towards the portionof the posterior head, and from the portion of the posterior headtowards the portion of the neck.

In one or more embodiments, the controller (e.g., controller 102 asshown in FIGS. 1A-1B) may be configured to control pressure applied byeach of the one or more head pressure applying regions 121, the one ormore neck pressure applying regions 111, and the one or more torsopressure applying regions 141 to move lymph at least from the head tothe neck to the torso. In one or more embodiments, each of the head andtorso pressure applying regions 121, 141 may be controllable to applypressure to move lymph at least from the left and right sides of thehead towards the posterior of the head and from the posterior of thehead downward towards the torso.

In one or more embodiments, the head garment portion 120 may be coupledto the neck garment portion 110 as shown in FIG. 6. Any suitable mannermay be used to couple the head and neck garment portions 120, 110. Forexample, such garment portions may be coupled using stitching, welding,or any other coupling technique to form a unitary garment. For example,head garment portion 120 may be attached to neck garment portion 110 atrespective seam lines 250, 251. In one or more embodiments, the headgarment portion 120 may be attached to the neck garment portion 110along the entire seam line 250, 251. Further, in one or moreembodiments, for example, the head and neck garment portions 120, 110may be coupled to one another at select locations along the respectiveseam lines 250, 251 to provide increased flexibility for the headgarment portion 120 to move relative to the neck garment portion 110.Specifically, the head and neck garment portions 120, 110 may be coupledsuch that there are one or more openings between the head and neckgarment portions 120, 110 proximate the posterior of the head. In one ormore embodiments, the head garment portion 120 may be removablycouplable to the neck garment portion 110, for example, using flapsextending outward from one or both of the head garment portion 120 andthe neck garment portion 110. In other words, the head garment portion120 and the neck garment portion 110 may be coupled and uncoupled usingany suitable fastener at, e.g., the flaps extending outward from one orboth.

In one or more embodiments, the head garment portion 120 and the torsogarment portion 140 may be coupled to the neck garment portion 110 asshown in FIG. 7. For example, the head garment portion 120 may becoupled to the neck garment portion 110 as described with reference toFIG. 6. Further, for example, any suitable manner may be used to couplethe torso and neck garment portions 140, 110. For example, such garmentportions may be coupled using stitching, welding, or any other couplingtechnique to form a unitary garment. For example, torso garment portion140 may be attached to neck garment portion 110 at respective seam lines253, 252. Dashed lines 108 illustrate the points at which the torsogarment portion 140 and the neck garment portion 110 may be coupledtogether along the illustrated seam lines.

In one or more embodiments, the torso garment portion 140 may beattached to the neck garment portion 110 along the entire seam lines253, 252. Further, in one or more embodiments, for example, the torsoand neck garment portions 140, 110 may be coupled to one another atselect locations along the respective seam lines 253, 252 to provideincreased flexibility for the torso garment portion 140 to move relativeto the neck garment portion 110.

Further, in one or more embodiments, the head, neck, and torso garmentportions 120, 110, 140 may be coupled to one another in a variety ofdifferent ways. For example, the torso garment portion 140 may becoupled to the neck garment portion 110 such that the torso garmentportion 140 has increased flexibility to move relative to the neckgarment portion 110. For example, the neck and torso garment portions110, 140 may be coupled to one another such that there are one or moreopenings between the neck and torso garment portions 110, 140 proximatethe posterior of the neck. In one or more embodiments, the torso garmentportion 140 may be coupled to the head garment portion 120 (e.g.,directly coupled). For example, in one or more embodiments, the headgarment portion 120 and the neck garment portion 110 may be provided asa single head/neck garment portion that may be coupled to the torsogarment portion 140. In other words, coupling of the head and neckgarment portions 120, 110 may include such garment portions being formedas a single unitary garment portion. In one or more embodiments, thetorso garment portion 140 may be removably couplable to the neck garmentportion 110 and/or the head garment portion 120, for example, usingflaps extending outward from one or each of the torso garment portion140, the head garment portion 120, and the neck garment portion 110. Forexample, the torso garment portion 140 may have flaps extending from thetorso garment portion 140 proximate the neck such that the flaps mayhave the appearance of a popped up collar. Therefore, the torso garmentportion 140 may be coupled and uncoupled to the head garment portion 120and/or the neck garment portion 110 using any suitable fastener at,e.g., the flaps extending outward from one or both.

A cross-section of a portion 800 of an exemplary garment including oneor more cells 803 which may be used in providing any of the garmentsdescribed herein is shown in FIG. 8A. The garment portion 800 may definean exterior surface 801 and an opposing interior surface 802. Theinterior surface 802 may be configured to be positioned closer to thehuman body than the exterior surface 801 when the garment portion 800 ispositioned on the body. The one or more cells 803 may be separated inany way that isolates one cell of the one or more cells 803 from anothercell of the one or more cells 803. For example, the one or more cells803 may be separated by welds 805.

The garment portion 800 may include one or more layers 804, with atleast one of the one or more layers 804 including a compression layer806. The compression layer 806 may define a cavity in each of the one ormore cells 803 that may be configured to receive a fluid. Thecompression layer 806 of each of the one or more cells 803 may receivefluid from a source (e.g., from pump 103 shown in FIGS. 1A-1B) to applypressure to body portion when garment portion 800 is worn by a user. Forexample, the fluid may be directed to each of the one or more cells 803in a sequential or in a continuous manner from, e.g., an inlet to thegarment portion 800 to an outlet of the garment portion 800, using asingle port, etc.

Each of the one or more cells 803 may be (e.g., individually or ingroups) filled with fluid to a pressure that is to be applied to theportion of the body by the garment portion 800. Each of the variouspressure applying regions described herein may include, e.g., one of theone or more cells 803 or a plurality of the one or more cells 803. Inone or more embodiments, different pressure applying regions describedherein may include, e.g., the same one or more cells, but may, e.g., bepositioned at different locations on the garment.

A cross-section of another portion 850 of exemplary garment includingone or more compression regions 853 which may be used in providing anyof the garments described herein is shown in FIG. 8B. The garmentportion 850 may define an exterior surface 851 and an opposing interiorsurface 852. The interior surface 852 may be configured to be positionedcloser to the human body than the exterior surface 851 when the garmentportion 850 is positioned on the body. The one or more regions 853 maybe separated or may not need to be separated from one another. In oneembodiment, for example, the one or more regions 853 may be separated bywelds 855.

The garment 850 may include one or more layers 854, with at least one ofthe one or more layers 854 including a compression layer 857. Thecompression layer 857 may include a variety of suitable componentsconfigured to apply pressure. For example, the pressure may be appliedthrough the compression layer by an air or pneumatic system, a hydraulicsystem, an electro-mechanical system, actuated elements (e.g., anelectrical signal may be used to actuate an element within the garment,such as electrically actuatable fibers in the garment, such that thecompartment including such fibers applies a pressure to a portion of thebody), a cable/lace tensioning system, or any other system that isconfigured to apply pressure to the portion of the body through thegarment portion 850.

In at least one embodiment, the compression layer 857 may be a pluralityof actuated elements configured to apply pressure to the portion of thebody (e.g., actuatable material, such as nitinol, or any othercompressing devices). The compression layer 857 of each of the one ormore regions 853 may apply pressure to body portion when the garmentportion 850 is worn by a user. For example, pressure may be applied byeach of the one or more regions 853 in a sequential or in a continuousmanner over the one or more regions 853. Each of the various pressureapplying regions described herein may include, e.g., one of the one ormore regions 853 or a plurality of the one or more regions 853. In oneor more embodiments, different pressure applying regions describedherein may include, e.g., the same one or more regions, but may, e.g.,be positioned at different locations on the garment portion 850.

The garment portions 800, 850, described in FIGS. 8A-8B (and hence asshown in FIGS. 1-7 and 9-10), may also be associated with one or morepressure sensors 818, 868 configured to measure pressure applied to theportion of the body by the garment portions 800, 850. The pressuresensors 818, 868 may be located at a variety of positions along thegarment portions 800, 850. For example, the pressure sensors 818, 868may be positioned (e.g., at an equal distance apart or as necessary)along the length of the garment portions 800, 850. The pressure sensors818, 868 may be located adjacent the one or more of the pressureapplying regions or multiple layers 804, 854 of the garment portions800, 850.

For example, one layer of material may encompass pressure sensors 818,868 including pressure sensing regions corresponding to the one or morepressure applying regions and/or corresponding to the one or more cells803, 853. In one or more embodiments, the pressure sensors 818, 868 maybe positioned on a side of the garment portions 800, 850 that may beproximate the portion of the body (e.g., the interior surface 802, 852,etc.). The pressure sensors 818, 868 may be positioned for sensingpressure at, e.g., each pressure applying region, each of the one ormore cells 803, 853, a manifold for multiple chambers, etc.

Pressure sensor apparatus may be implemented for sensing pressure in aplurality of different manners at, e.g., each pressure applying region,each air cell or chamber, a manifold for multiple chambers, etc. Thepressure sensor apparatus may be configured to measure pressure in avariety of different ways, e.g., one sensor for each pressure applyingregion, a single sensor for all of the pressure applying regions, etc.Additionally, the controller may be configured to control the pressureapplied to the portion of the body based on the measured pressure. Forexample, pressure sensing apparatus may take the form of using pressuresensor within the garment described in U.S. Pat. No. 9,027,408 entitled“Elastomeric Particle Having An Electrically Conducting Surface, APressure Sensor Comprising Said Particles, A Method For Producing SaidSensor And A Sensor System Comprising Said Sensors,” or a pump orcontrol apparatus (e.g., 102) may be provided with pressure sensingfunctionality (e.g., measuring pressures of air in cells as part of thepump apparatus) such as described in U.S. Pat. No. 7,947,003 entitled“Pressurized Medical Device,” all of which are incorporated by referenceherein.

Another exemplary compression garment system 900 is illustrated in FIGS.9-10. The compression garment system 900 may include any of the featuresshown and/or described herein with reference to FIGS. 1-8, and further,any garments described with reference to FIGS. 1-8 may use any featuresshown and/or described with reference to FIGS. 9-10. The compressiongarment system 900 includes a garment 901 configured to be positionedaround at least a portion of a body (e.g., a human body 10 as shown inFIGS. 2A-2C). The garment 901 may be positioned relative to the body ina variety of different ways. For example, as shown in FIGS. 9-10, thegarment 901 is positioned around the head, neck, and torso of the body.

As shown in FIGS. 9-10, the garment includes a head garment portion 920positioned proximate the head, a neck garment portion 910 positionedproximate the neck, and a torso garment portion 940 positioned proximatethe torso. The head garment portion 920 may be coupled to the neckgarment portion 910 and the neck garment portion 910 may be coupled tothe torso garment portion 940. In one or more embodiments, the headgarment portion 920 may be coupled to the torso garment portion 940. Asshown in FIGS. 9-10, the garment 901 may also include an open region 915between the neck garment portion 910 and the torso garment portion 940proximate the anterior portion of the neck and adjacent the trachea whenthe garment 901 is positioned on the body. The open region 915 may allowaccess to the airway of a patient wearing the garment 901.

The garment 901 may include pressure applying regions located at regionsin each portion of the garment 901. Each of the pressure applyingregions may be controllable or configured to apply pressure to a portionof the body. For example, the head garment portion 920 may include oneor more head pressure applying regions 921 that are controllable orconfigured to apply pressure to one or more corresponding portions ofthe head, the neck garment portion 910 may include one or more neckpressure applying regions 911 that are controllable or configured toapply pressure to one or more corresponding portions of the neck, andthe torso garment portion 940 may include one or more torso pressureapplying regions 941 controllable or configured to apply pressure to oneor more corresponding portions of the torso.

The head garment portion 920 may be configured to be donned on the headof the body. In one or more embodiments, the head garment portion 920may be described as configured to be positioned around both sides of thehead from the posterior of the head to the anterior of the head. Thehead garment portion 920 may include a posterior head garment portion928, a right head garment portion 934, and a left head garment portion936. The posterior head garment portion 928 may be positionableproximate a posterior of the head, the right head garment portion 934may extend from the posterior head garment portion 928 and bepositionable on the right side of the head from the posterior of thehead to the anterior of the head, and the left head garment portion 936may extend from the posterior head garment portion 928 and bepositionable on the left side of the head from the posterior of the headto the anterior of the head. The head garment portion 920 may alsoinclude a right cheek garment portion 922 positionable proximate theright cheek and a left cheek garment portion 924 positionable proximatethe left cheek.

The head garment portion 920 may include one or more head pressureapplying regions 921. For example, each of the right head garmentportion 934, the left head garment portion 936, and the posterior headportion 928 of the head garment portion 920 may include one or moreportions of the one or more head pressure applying regions 921.Additionally, the right and left cheek garment portions 922, 924 mayinclude one or more cheek pressure applying regions 923 configured orcontrollable to apply pressure to a portion of the cheek. The headpressure applying regions 921, and, e.g., the one or more cheek pressureapplying regions 923, may work together to help move lymph out of thehead and towards the neck and torso.

The head garment portion 920 may also include a forehead garment portion932 and an under chin garment portion 925. The forehead garment portion932 and the under chin garment portion 925 may be configured to couple afirst portion of the head garment portion 920 to a second portion of thehead garment portion 920 to assist in donning and positioning the headgarment portion 920 on the head. For example, the under chin garmentportion 925 may include one or more under chin connection elements 927configured to couple the right cheek garment portion 922 to the leftcheek garment portion 924. The forehead garment portion 932 and theunder chin garment portion 925 may be used to keep portions of the headgarment portion 920 (e.g., the right and left cheek garment portions922, 924) close to the head when the one or more head pressure applyingregions 921 are applying pressure to the head. For example, the one ormore head pressure applying regions 921 may move the head garmentportion 920 away from the body when applying pressure because thatdirection is the path of least resistance.

The forehead garment portion 932 and the under chin garment portion 925may be configured to prevent the head garment portion 920 from moving inundesired directions and ensure that the one or more head pressureapplying regions 921 are applying pressure to the head when the headgarment portion 920 is donned on the head. In one or more embodiments,the head garment portion 920 may include one or more nasal connectionelements (not shown) positionable proximate a nasal bridge of the headand configured to connect the first portion of the head garment portion920 (e.g., the right cheek garment portion 922) to the second portion ofthe head garment portion 920 (e.g., the left cheek garment portion 924).

In one or more embodiments, the forehead garment portion 932 and theunder chin garment portion 925 may be configured to apply pressure to aportion of the head (e.g., the forehead and under the chin,respectively). The forehead garment portion 932 may apply pressure bypulling a strap 933 (e.g., strapping across the upper head garmentportion 920) to tighten the forehead garment portion 932 against theforehead. The forehead garment portion 932 may include forehead pressureapplying regions (not shown) that are controllable or configured toapply pressure to a portion of the forehead (e.g., temples). Similarly,the under chin garment portion 925 may apply pressure by pulling a strap(e.g., strapping across the lower head garment portion 920) to tightenthe under chin garment portion 925 against and under the chin. The underchin garment portion 925 may include under chin pressure applyingregions (not shown) that are controllable or configured to applypressure to a portion under the chin.

As shown in FIGS. 9-10, the neck garment portion 910 may be configuredto be donned on a neck of the body. In one or more embodiments, the neckgarment portion 910 may be described as configured to be positionedaround both sides of the neck from the posterior of the neck to theanterior or sides of the neck. The neck garment portion may include afirst neck garment portion 912 (e.g., right neck garment portion) and asecond neck garment portion 914 (e.g., left neck garment portion). Thefirst neck garment portion 912 may be positionable proximate a rightportion or side of the neck and the second neck garment portion 914 maybe positionable proximate a left portion or side of the neck.

Each of the first and second neck garment portions 912, 914 may includeone or more neck pressure applying regions 911 controllable orconfigured to apply pressure to a portion of the neck. For example, theone or more neck pressure applying regions 911 of the first and secondneck garment portions 912, 914 may be controllable or configured toapply pressure alternately or simultaneously between each of the firstand second neck garment portions 912, 914.

As shown in FIGS. 9-10, the torso garment portion 940 may be configuredto be donned on a torso of the body. In one or more embodiments, thetorso garment portion 940 may be described as configured to bepositioned around both sides of the torso from the posterior of thetorso to the anterior of the torso. The torso garment portion 940 mayalso be described as having a vest-like shape (e.g., a vest includingopenings at the sides thereof for receiving arms of a user). The torsogarment portion 940 may include a posterior torso garment portion 950positionable proximate the posterior of the torso, a right torso garment951 positionable proximate the right side of the torso, and a left torsogarment 952 positionable proximate the left side of the torso. In one ormore embodiments, the right torso garment portion 951 and the left torsogarment portion 952 may overlap proximate the anterior of the torso whenthe garment 901 is positioned on the body.

The torso garment portion 940 may include one or more torso pressureapplying regions 941 controllable or configured to apply pressure to aportion of the torso. For example, each of the posterior torso garmentportion 950, the right torso garment portion 951, and the left torsogarment portion 952 may include one or more torso pressure applyingregions 941 controllable or configured to apply pressure to a portion ofthe posterior of the torso, right side of the torso, and left side ofthe torso, respectively. Together, the one or more head pressureapplying regions 921, the one or more neck pressure applying regions911, and the one or more torso pressure applying regions 941 may becontrollable to apply pressure to portions of the body such that lymphis moved at least from the head towards the torso (e.g., head to torso,head to neck, neck to torso, etc.).

The right and left torso garment portions 951, 952 may be coupled toeach other to don the torso garment portion 940 on the torso of thebody. The right torso garment portion 951 may be coupled to the lefttorso garment portion 952 in a variety of different ways. For example,the garment 901 may also include fastening apparatus 980 (e.g.,fastening structures) configured to couple the right torso garmentportion 951 to the left torso garment portion 952 (e.g., proximate theanterior of the torso). The fastening apparatus 980 may include a rightstrap 981 couplable to the right torso garment portion 951, a left strap982 couplable to the left torso garment portion 952, and a fastener 983configured to couple the right strap 981 to the left strap 982.

The right and left straps 981, 982 may be couplable on the right andleft torso garment portions 951, 952, respectively, using hook and loopfasteners. In other words, the right and left straps 981, 982 may beadjustable on the right and left torso garment portions 951, 952 andthen coupled together using the fastener 983. This allows the right andleft straps 981, 982 to be placed on the torso garment portion 940 in aninitial fitting of the torso garment portion 940 on a patient, but thenthe torso garment portion 940 may be donned and doffed with more easeusing the fastener 983. As shown in FIG. 9, the compression garmentsystem 900 includes two fastening apparatus 980, 985, with one on thetorso garment portion 940 closer to the neck (e.g., fastening apparatus980) and another on the torso garment portion 940 closer to the waist(e.g., fastening apparatus 985). The compression garment system mayinclude any number of fastening apparatus 980 suitable for donning thegarment 901.

In one or more embodiments, the system 900 may include a controlapparatus or controller 902 (e.g., one or more processors employing oneor more programs or routines carrying out one or more methods orprocesses and implemented with one or more types of memory) configuredto control the system and/or one or more elements thereof (e.g.,providing compression therapy by the one or more pressure applyingregions, etc.), and may include a pump 903 and tubing 905 that may becontrolled by the controller 902 to provide a fluid to/from the one ormore cells (e.g. cells 803 as shown in FIG. 8A) of each of the pressureapplying regions, e.g., a fluid such as a liquid or gas in the cells, soas to apply a compression therapy when the garment 901 includes one ormore fluid filled cells.

Such control apparatus and pump apparatus may operate in the same manneras described with reference to FIGS. 1A-1B. Further, in one or moreembodiments, as shown in FIGS. 9-10, the controller 902 may be connectedto one or more components of the compression garment system via one ormore electrical lines and/or wirelessly, as represented generally bydashed lines 904. For example, controller 902 may be connected tocommunicate and control the pressure applying regions either with use ofphysical electrical connections and/or wirelessly.

The compression garment portions described throughout FIGS. 1-10 may bedescribed as including static garment portions and dynamic garmentportions. In other words, static garment portions include portions ofthe compression garment that may apply a constant pressure (e.g., astatic pressure) on a portion of the body during a compression therapytime period and dynamic garment portions include portions of thecompression garment that may apply varying pressure on a portion of thebody (e.g., under control of a controller) during the compressiontherapy time period.

In one or more embodiments, a part of the static garment portion mayinclude at least a portion of a dynamic garment portion controlled toapply a static pressure to a portion of the body during the compressiontherapy time period. For example, a dynamic garment portion may apply astatic pressure to a portion of the body by applying a constant pressureto the portion of the body (e.g., strapping a dynamic garment portiontight against the portion of the body to apply a pressure withoutvarying any dynamic pressure applying elements; positioning a dynamicgarment portion against the portion of the body and applying a staticpressure using the controller (providing fluid to a cell) withoutvarying the pressure being applied). For example, under chin pressureapplying elements 126 may be controlled to receive fluid to provide astatic pressure under the chin during a compression therapy time period,while other head pressure applying elements may be controlled to apply adynamic pressure sequence to the head during the compression therapytime period to provide desired lymph movement.

For example, an exemplary garment configured to be donned on a portionof the body (e.g., head, neck, torso, etc.) may include a static garmentportion (e.g., under chin garment portion 925) and a dynamic garmentportion (e.g., right and left cheek garment portions 922, 924). Thestatic garment portion may be configurable to apply a static pressure toa portion of the head and the dynamic garment portion may include one ormore pressure applying regions controllable to apply pressure to aportion of the head and/or neck.

A controller (e.g., controller 102) may be configured to controlpressure applied by the one or more pressure applying regions; whereinthe pressure may be changed over time during the therapy time period(e.g., dynamic pressure being applied using the one or more pressureapplying regions). The one or more pressure applying regions may becontrollable to apply pressure to the one or more portions of the headand neck to move lymph at least from the head towards the neck anddownward therefrom.

The static garment portion may be configured to apply a static pressureto one or more portions of the body in any suitable manner. For example,the static garment portion may apply pressure during donning of thegarment by tightening a portion of the garment in relation to the body.Specifically, for example, the static garment portion may beconfigurable to apply pressure to a portion under a chin of the head(e.g., through the under chin garment portions 125, 925 illustrated inFIGS. 1A-1B, 3, and 9-10). Static treatment under the chin may help toavoid lymph build-up during compression treatment.

The static garment portion may also include one or more under chinconnection elements (e.g., as described in relation to FIGS. 1A-1B) thatinclude a static compression surface positionable proximate under thechin of the head. The one or more under chin connection elements may beconfigured to connect the right cheek garment portion and the left cheekgarment portion. The static garment portion may also be configurable toapply a static pressure to a forehead and temples of the head (e.g.,through the forehead garment portions 132, 932 illustrated in FIGS.1A-1B, 3, and 9-10). Further, for example, the under chin garmentportions 125, 925 illustrated in FIGS. 1A-1B, 3, and 9-10, may includeunder chin pressure applying elements configured to receive fluid toprovide a static pressure under the chin during a compression therapytime period (e.g., the one or more under chin cells being filled withfluid and held at a static pressure) while other head pressure applyingregions may be controlled to apply a dynamic pressure sequence to thehead during the compression therapy time period. However, in one or moreembodiments, the one or more pressure applying regions in the under chingarment portions 125, 925 illustrated in FIGS. 1A-1B, 3, and 9-10 may becontrollable to apply a dynamic pressure to a portion under the chin.

The dynamic garment portion may be configured to apply dynamic pressureto one or more portions of the body in any suitable manner. For example,the dynamic garment portion may include part of any of the head garmentportions, neck garment portions, and/or torso garment portions thatinclude controllable pressure applying regions. The controllablepressure applying regions may work in combination with one another toapply a sequence of pressures on the body that moves lymph in a desireddirection (e.g., from the head towards the neck, from the neck towardsthe torso, etc.). Such application of a sequence of pressures on thebody that moves lymph (e.g., pressure, for example, different pressures,being applied to one or more portions of the head and neck, at differenttimes during a compression therapy period) provides a dynamic pressureto the body.

For example, the dynamic garment portion may include a right cheekgarment portion (e.g., right cheek garment portion 122, 922)positionable proximate a right cheek of the head and a left cheekgarment portion (e.g., left cheek garment portion 124, 924) positionableproximate a left cheek of the head. The one or more pressure applyingregions in such right and left cheek garment portions may becontrollable to apply a dynamic pressure to a portion of each of theleft and right cheeks (e.g., apply a sequence of pressures on the bodythat moves lymph in a desired direction). In another example, thedynamic garment portion may include a posterior head garment portion(e.g., posterior head garment portion 128, 928) positionable proximate aposterior of the head. The one or more pressure applying regions in theposterior head garment portion may be controllable to apply a dynamicpressure to a portion of the posterior of the head (e.g., apply asequence of pressures on the body that moves lymph in a desireddirection). In other words, any garment portion including pressureapplying regions controllable to move lymph suitable to provide adynamic pressure on the body.

The static and dynamic garment portions may be combined to assist inmoving lymph at least from a portion under the chin, a portion of eachof the left and right cheeks, and a portion of the posterior of the headtowards a portion of the neck. For example, the one or more pressureapplying regions may be controllable to apply a dynamic pressure duringa therapy time period to move lymph at least from a portion under thechin, a portion of each of the left and right cheeks, and a portion ofthe posterior of the head towards a portion of the neck, while one ormore static garment portions (e.g., such as the under chin garmentportions 125, 925 illustrated in FIGS. 1A-1B, 3, and 9-10; or theforehead garment portions 132, 932 illustrated in FIGS. 1A-1B, 3, and9-10) are used to prevent fluid from movement into the regions uponwhich the static pressure is being applied during the therapy timeperiod.

Another exemplary compression garment system may include a garmentconfigured to be donned on a head and a neck of a body. The garment maybe configurable to apply static pressure to one or more portions of thebody (e.g., to under the chin and forehead using a head garment portion)and may include a plurality of pressure applying regions controllable toapply dynamic pressure (e.g., varying pressure over a period of time) toa portion of the body (e.g., to the head, cheeks, posterior of head,neck, torso using a head garment portion, neck garment portion, or torsogarment portion).

A controller may be configured to control pressure applied by each ofthe plurality of pressure applying regions. The pressure may be appliedto one or more portions of the head and neck at different times during acompression therapy period. In other words, the garment may apply astatic pressure when the garment is donned on a body (e.g., a staticpressure is applied by tightening the garment on the body) and then acontroller may apply a dynamic pressure to the garment after the garmentis donned (e.g., using pressure applying regions to vary pressure atspecific regions after the garment is donned on the body). The pluralityof pressure applying regions may be controllable to apply pressure toone or more portions of the head and neck to move lymph at least fromthe head towards the neck and downward therefrom.

The compression garment system may apply pressure to the body throughthe garment in a variety of different ways. For example, the pluralityof pressure applying regions may be controllable to apply dynamicpressure (e.g., varying amounts of pressure applied over therapy period)to one or more portions of the head and neck (e.g., cheeks, neck, andposterior of head using a head garment portion and neck garment portion)after the garment is configured to apply static pressure to one or moreportions of the head and neck (e.g., by tightening the garment on thebody using, for example, straps, fasteners, etc.). The garment may alsobe configured to be donned on a torso of the body and the plurality ofpressure applying regions may be controllable to apply dynamic pressureto the torso of the body. In one or more embodiments, the garment mayalso apply a static pressure to the torso when the garment is donned onthe torso.

One exemplary method 1100 of compression therapy is illustrated in FIG.11. The method 1100 may include donning 1110 a garment on at least aportion of a body (e.g., the garment may include a head garment portionand a neck garment portion). The head garment portion may include one ormore head pressure applying regions (e.g., controllable to applypressure to a portion of a head of the body) and the neck garmentportion may include one or more neck pressure applying regions (e.g.,controllable to apply pressure to a portion of a neck of the body). Themethod 1100 may also include controlling 1120 pressure applied to thehead of the body by each of the one or more head pressure applyingregions to move lymph at least towards the neck. The method 1100 mayfurther include controlling 1130 pressure applied to the neck of thebody by each of the one or more neck pressure applying regions to movelymph at least downward from the neck.

In one or more embodiments, the method 1100 may also include applyingpressure to the head of the body by each of the one or more headpressure applying regions and thereafter applying pressure to the neckof the body by each of the one or more neck pressure applying regions.The method 1100 may further include repeating such application ofpressure to the head of the body and to the neck of the body (e.g., acontroller controlling the sequence of pressure being applied). In oneor more embodiments, the method 1100 may include alternately controllingpressure applied by each of the one or more neck pressure applyingregions of a first neck garment portion (e.g., of the neck garmentportion and positionable proximate a right portion of the neck) and byeach of the one or more neck pressure applying regions of a second neckgarment portion (e.g., of the neck garment portion and positionableproximate a left portion of the neck). The first neck garment portionincluding pressure applying regions separate from those of the secondneck garment portion.

In one or more embodiments, the garment may also include a torso garmentportion (e.g., positionable proximate a torso of the body) that includesone or more torso pressure applying regions controllable to applypressure to a portion of the torso. The method 1100 may further includecontrolling pressure applied to the torso of the body by each of the oneor more torso pressure applying regions and repeating application ofpressure to the head of the body, to the neck of the body, and to thetorso of the body (e.g., a controller controlling the sequence ofpressure being applied to each region of the body by the variouspressure applying regions of the various garment portions).

Another exemplary method 1200 of compression therapy is illustrated inFIG. 12. The method 1200 may include donning 1210 a garment (e.g., thegarment including a plurality of pressure applying regions) on at leasta portion of a head and a neck of a body. The method 1200 may alsoinclude applying 1220 a static pressure to at least under a chin of thehead using an under chin garment portion of the garment. The method 1200may further include applying 1230 a dynamic pressure to one or moreportions of the head and neck of the body using the plurality ofpressure applying regions. The application of a dynamic pressure mayinclude applying pressure to one or more portions of the head and neckat different times during a compression therapy period.

In one or more embodiments, the method 1200 may include controlling thedynamic pressure applied to one or more portions of the head and neck ofthe body by the plurality of pressure applying regions to move lymph atleast from the head and neck downwards. In one or more embodiments, theapplying 1230 of a dynamic pressure to the head and neck of the bodyusing the plurality of pressure applying regions may include applyingpressure to the head of the body by at least one of the plurality ofpressure applying regions and thereafter applying pressure to the neckof the body by at least one of the plurality of pressure applyingregions. The applying 1230 of a dynamic pressure may also includerepeating application of pressure to the head of the body and to theneck of the body.

In one or more embodiments, the method 1200 may also include donning thegarment on at least a portion of a torso of the body (e.g., the garmentconfigured to be donned on at least a portion of the torso of the bodymay be coupled to the garment configured to be donned on at least aportion of the head and neck of the body) and applying a dynamicpressure to the torso of the body using the plurality of pressureapplying regions. In one or more embodiments, the method 1200 mayfurther include applying a static pressure to a forehead and temples ofthe head using a forehead garment portion of the garment. In one or moreembodiments, the method 1200 may also include applying a pressure underthe chin of the head using at least one of the plurality of pressureapplying regions.

Yet another exemplary method 1300 of compression therapy is illustratedin FIG. 13A. The method 1300 may include donning 1310 a torso garment ona torso of the body (e.g., the torso garment may include a plurality oftorso pressure applying regions controllable to apply pressure to one ormore portions of a torso of the body) and donning 1320 a head garment onthe body (e.g., the head garment may be coupled to the torso garment bya neck garment and may include a plurality of head pressure applyingregions controllable to apply pressure to one or more portions of a headof the body).

As shown in FIG. 13B, donning 1310 the torso garment may includepositioning 1312 a posterior torso garment portion of the torso garmentproximate a posterior of the torso of the body. Donning 1310 the torsogarment may also include positioning 1314 a right torso garment portionof the torso garment, extending from the posterior torso garmentportion, to an anterior of the torso and positioning 1316 a left torsogarment portion of the torso garment, extending from the posterior torsogarment portion opposite the right torso garment portion, to theanterior of the torso. Donning 1310 the torso garment may furtherinclude coupling 1318 the left and right torso garment portions.

Further, as shown in FIG. 13C, donning 1320 the head garment may includepositioning 1322 a posterior head garment portion of the head garmentproximate a posterior of the head of the body. Donning 1320 the headgarment may also include positioning 1324 a right head garment portionof the head garment, extending from the posterior head garment portion,around a right side of the head from the posterior of the head to ananterior of the head and positioning 1326 a left head garment portion ofthe head garment, extending from the posterior head garment portionopposite the right head garment portion, around a left side of the headfrom the posterior of the head to the anterior of the head. Donning 1320the head garment may further include coupling 1328 the right and lefthead garment portions.

In one or more embodiments, coupling 1318 the left and right torsogarment portions may include coupling the left and right torso garmentportions using fastening apparatus. In one or more embodiments, the headgarment may include a under chin garment portion configurable to applypressure to a portion under a chin (e.g., the under chin garment portionmay be positionable proximate under the chin of the head). The underchin garment portion may include one or more under chin connectionelements configured for use in coupling the right and left head garmentportions. The head garment may also include a forehead garment portionconfigured for use in coupling the right and left head garment portions(e.g., the forehead garment portion may be positionable proximate aforehead of the head). The head garment may further include one or morenasal connection elements configured for use in coupling the right andleft head garments (e.g., the one or more nasal connection elementspositionable proximate a nasal bridge of the head).

In one or more embodiments, each of the plurality of head and torsopressure applying regions may be controllable to apply pressure to aportion of the body to move lymph at least from the left and right sidesof the head towards the posterior of the head and from the posterior ofthe head downward towards the torso. In one or more embodiments, theneck garment includes at least one pressure applying region controllableto apply pressure to a portion of the neck to move lymph from the headdownward towards the torso of the body. In one or more embodiments, themethod 1300 may include applying pressure to the head of the body by atleast one of the plurality of head pressure applying regions andapplying pressure to the torso of the body by at least one of theplurality of torso pressure applying regions. In one or moreembodiments, the method 1300 may further include repeating applicationof pressure to the head of the body and to the torso of the body.

One or more tightening apparatus (e.g., lacing systems) may also be usedat one or more locations of the various garments to assist in donningthe garment or garments (e.g., on the torso garment along the sides, onthe head garment as or with one of the connectors or fasteners, etc.) Asshown in FIG. 14, torso garment portion 440 may include a tighteningapparatus 420 to assist in positioning (e.g., tightening) the torsogarment portion 440 on the torso of the body. The tightening apparatus420 may be located anywhere on the torso garment portion 440 such thatthe tightening apparatus 420 helps to move a first portion 442 of thetorso garment portion 440 relative to a second portion 444 of the torsogarment portion 440 to, e.g., assist in tightening the torso garmentportion 440 proximate the torso of the body.

The tightening apparatus 420 may include at least one lace 430positioned (e.g., laced) between the first and second portions 442, 444of the torso garment portion 440. The at least one lace 430 may beguided between the first and second portions 442, 444 of the torsogarment portion 440 using guide members (e.g., not shown but throughwhich the lace runs, for example, at the ends of the crossing laces).The tightening apparatus 420 may also include a tightening device 425that may be coupled to the at least one lace 430 and configured to applytension on the at least one lace 430 to tighten the torso garmentportion 440 about the torso of the body.

As shown in FIG. 14 the tightening apparatus 420 is located under an armof the body. In one or more embodiments, the tightening apparatus 420may be located under one or both arms of the body (e.g., along the sidesof the body). Also, the tightening apparatus 420 may be located in anyother location along the garment that may need additional help intightening or adjusting the garment proximate the body. The tighteningapparatus 420 described herein may be similar to and include one or morefeatures found in PCT International Application No. PCT/US2015/036951entitled “Compression Garment System with Tightening Apparatus,” whichis herein incorporated by reference.

Unless otherwise indicated, all numbers expressing feature sizes,amounts, and physical properties used in the specification and claimsare to be understood as being modified in all instances by the term“about.” Accordingly, unless indicated to the contrary, the numericalparameters set forth in the foregoing specification and attached claimsare approximations that can vary depending upon the desired propertiessought to be obtained by those skilled in the art utilizing theteachings disclosed herein. The use of numerical ranges by endpointsincludes all numbers within that range (e.g. 1 to 5 includes 1, 1.5, 2,2.75, 3, 3.80, 4, and 5) and any range within that range.

Particular materials and dimensions thereof recited in the disclosedexamples, as well as other conditions and details, should not beconstrued to unduly limit this disclosure. Although the subject matterhas been described in language specific to structural features and/ormethodological acts, it is to be understood that the subject matterdefined in the appended claims is not necessarily limited to thespecific features or acts described above. Rather, the specific featuresand acts described above are disclosed as representative forms ofimplementing the claims.

What is claimed:
 1. A compression garment system comprising: a garmentconfigured to be donned on a head and a neck of a body, wherein thegarment comprises: a static garment portion configurable to apply astatic pressure to a portion of the head, and a dynamic garment portioncomprising one or more pressure applying regions controllable to applypressure to the head and neck; and a controller configured to controlpressure applied by the one or more pressure applying regions, pressurebeing applied to one or more portions of the head and neck at differenttimes during a compression therapy period.
 2. The compression garmentsystem of claim 1, wherein the one or more pressure applying regions arecontrollable to apply pressure to one or more portions of the head andneck to move lymph at least from the head towards the neck and downwardtherefrom.
 3. The compression garment system of claim 1, wherein thestatic garment portion is configurable to apply a static pressure to aportion under a chin of the head.
 4. The compression garment system ofclaim 1, wherein the one or more pressure applying regions arecontrollable to apply pressure to a portion under the chin.
 5. Thecompression garment system of claim 1, wherein the dynamic garmentportion comprises a first neck garment portion positionable proximate aright portion of the neck of the body and a second neck garment portionpositionable proximate a left portion of the neck of the body, whereinone or more pressure applying of the first neck garment portion areseparate from one or more pressure applying regions of the second neckgarment portion.
 6. The compression garment system of claim 5, whereinthe controller is configured to control pressure applied by the firstand second neck garment portions alternately.
 7. The compression garmentsystem of claim 5, wherein the first neck garment portion ispositionable proximate a right side and a right posterior side of theneck of the body and the second neck garment portion is positionableproximate a left side and a left posterior side of the neck of the body.8. The compression garment system of claim 1, wherein the dynamicgarment portion comprises a right cheek garment portion positionableproximate a right cheek of the head of the body and a left cheek garmentportion positionable proximate a left cheek of the head of the body,wherein at least one of the one or more pressure applying regions iscontrollable to apply pressure to a portion of each of the left andright cheeks.
 9. The compression garment system of claim 8, wherein thestatic garment portion comprises one or more under chin connectionelements, wherein the one or more under chin connection elementscomprises a static compression surface positionable proximate under thechin of the head, wherein the one or more under chin connection elementsare configured to connect the right cheek garment portion and the leftcheek garment portion.
 10. The compression garment system of claim 8,wherein the dynamic garment portion comprises a posterior head garmentportion positionable proximate a posterior of the head of the body,wherein at least one of the one or more pressure applying regions iscontrollable to apply pressure to a portion of the posterior of thehead.
 11. The compression garment system of claim 10, wherein the one ormore pressure applying regions are configured to move lymph from aportion under the chin, a portion of each of the left and right cheeks,and a portion of the posterior of the head towards a portion of theneck.
 12. The compression garment system of claim 8, wherein the garmentfurther comprises one or more nasal connection elements positionableproximate a nasal bridge of the head of the body, wherein the one ormore nasal connection elements are configured to connect the right cheekgarment portion and the left cheek garment portion.
 13. The compressiongarment system of claim 1, wherein the garment further comprises one ormore forehead connection elements configured for use in donning thegarment on the head of the body.
 14. The compression garment system ofclaim 1, wherein the static garment portion is further configurable toapply a static pressure to a forehead and temples of the head.
 15. Thecompression garment system of claim 1, wherein each of the one or morepressure applying regions comprises one or more cells configured toreceive a fluid.
 16. The compression garment system of claim 1, whereineach of the one or more pressure applying regions comprises one or moreactuatable elements configured to apply pressure to one or more portionsof the head and neck.
 17. The compression garment system of claim 1,wherein at least a portion of the static garment portion comprises atleast a portion of the dynamic garment portion controlled to apply astatic pressure to a portion of the body.
 18. The compression garmentsystem of claim 1, further comprising a torso garment portionpositionable proximate a torso of the body, wherein the torso garmentportion comprises one or more torso pressure applying regionscontrollable to apply pressure to a portion of the torso, wherein thecontroller is configured to control pressure applied by each of the oneor more pressure applying regions of the dynamic garment portion and theone or more torso pressure applying regions to move lymph at least fromthe head towards the torso.
 19. The compression garment system of claim18, wherein the torso garment portion is coupled to the garmentconfigured to be donned on the head and neck.
 20. The compressiongarment system of claim 18, wherein the torso garment portion comprisesa right axillary garment portion positionable proximate a right underarm region of the torso and a left axillary garment portion positionableproximate a left under arm region of the torso, wherein the right andleft axillary garment portions comprise one or more axillary pressureapplying regions, the one or more axillary pressure applying regionscontrollable to apply pressure to a portion of the right and left underarm regions.
 21. The compression garment system of claim 18, furthercomprising a tightening apparatus configured to tighten the torsogarment portion proximate the body, wherein the tightening apparatuscomprises: at least one lace positioned between a first and secondportion of the torso garment portion; and a tightening device coupled tothe at least one lace and configured to apply tension on the at leastone lace to move the first portion of the torso garment portion relativeto the second portion of the torso garment portion.
 22. A compressiongarment system comprising: a garment configured to be donned on a headand a neck of a body and configurable to apply static pressure to one ormore portions of the body, wherein the garment comprises a plurality ofpressure applying regions controllable to apply dynamic pressure to oneor more portions of the body; and a controller configured to controlpressure applied by each of the plurality of pressure applying regions,pressure being applied to one or more portions of the head and neck atdifferent times during a compression therapy period.
 23. The compressiongarment system of claim 22, wherein the plurality of pressure applyingregions are controllable to apply pressure to one or more portions ofthe head and neck to move lymph at least from the head towards the neckand downward therefrom.
 24. The compression garment system of claim 22,wherein the plurality of pressure applying regions are controllable toapply dynamic pressure to one or more portions of the head and neckafter the garment is configured to apply static pressure to one or moreportions of the head and neck.
 25. The compression garment system ofclaim 22, wherein the garment is further configured to be donned on atorso of the body, wherein the plurality of pressure applying regionsare controllable to apply dynamic pressure to the torso of the body. 26.A method of compression therapy comprising: donning a garment on atleast a portion of a head and neck of a body, the garment comprising aplurality of pressure applying regions; applying a static pressure to atleast under a chin of the head using an under chin garment portion ofthe garment; and applying a dynamic pressure to one or more portions ofthe head and neck of the body using the plurality of pressure applyingregions, wherein applying a dynamic pressure comprises applying pressureto one or more portions of the head and neck at different times during acompression therapy period.